Geostationary ocean colour sensors have not yet been launched into space, but are under consideration by a number of space agencies. This study provides a proof of concept for mapping of Total Suspended Matter (TSM) in turbid coastal waters from geostationary platforms with the existing SEVIRI (Spinning Enhanced Visible and InfraRed Imager) meteorological sensor on the METEOSAT Second Generation platform. Data are available in near real time every 15 minutes. SEVIRI lacks sufficient bands for chlorophyll remote sensing but its spectral resolution is sufficient for quantification of Total Suspended Matter (TSM) in turbid waters, using a single broad red band, combined with a suitable near infrared band. A test data set for mapping of TSM in ...
AbstractOcean colour remote sensing from sun-synchronous polar orbiting satellites has become well-e...
International audienceThe SEVIRI instrument on board Meteosat Second Generation (MSG) offers new cap...
Ocean colour remote sensing from sun-synchronous polar orbiting satellites has become well-establish...
Geostationary ocean colour sensors have not yet been launched into space, but are under consideratio...
Geostationary ocean colour sensors have not yet been launched into space, but are under consideratio...
This study aims to investigate the potential of The Spinning Enhanced Visible and InfraRed Imager (S...
The concentration of Total Suspended Matter (TSM) in shallow coastal waters is known to vary by over...
Polar-orbiting ocean colour sensors such as SeaWiFS, MODIS, and MERIS have been covering the world’s...
Ocean colour sensors have been capturing the state of the world's oceans for over a decade. They are...
AbstractOcean colour sensors have been capturing the state of the world's oceans for over a decade. ...
Ocean color satellite sensors are powerful tools to study and monitor the dynamics of suspended part...
International audienceThe accurate measurement of suspended particulate matter (SPM) concentrations ...
Ocean color satellite sensors are powerful tools to study and monitor the dynamics of suspended part...
Recent studies in the application of geostationary satellite sensors, such as the Spinning Enhanced ...
AbstractOcean colour remote sensing from sun-synchronous polar orbiting satellites has become well-e...
International audienceThe SEVIRI instrument on board Meteosat Second Generation (MSG) offers new cap...
Ocean colour remote sensing from sun-synchronous polar orbiting satellites has become well-establish...
Geostationary ocean colour sensors have not yet been launched into space, but are under consideratio...
Geostationary ocean colour sensors have not yet been launched into space, but are under consideratio...
This study aims to investigate the potential of The Spinning Enhanced Visible and InfraRed Imager (S...
The concentration of Total Suspended Matter (TSM) in shallow coastal waters is known to vary by over...
Polar-orbiting ocean colour sensors such as SeaWiFS, MODIS, and MERIS have been covering the world’s...
Ocean colour sensors have been capturing the state of the world's oceans for over a decade. They are...
AbstractOcean colour sensors have been capturing the state of the world's oceans for over a decade. ...
Ocean color satellite sensors are powerful tools to study and monitor the dynamics of suspended part...
International audienceThe accurate measurement of suspended particulate matter (SPM) concentrations ...
Ocean color satellite sensors are powerful tools to study and monitor the dynamics of suspended part...
Recent studies in the application of geostationary satellite sensors, such as the Spinning Enhanced ...
AbstractOcean colour remote sensing from sun-synchronous polar orbiting satellites has become well-e...
International audienceThe SEVIRI instrument on board Meteosat Second Generation (MSG) offers new cap...
Ocean colour remote sensing from sun-synchronous polar orbiting satellites has become well-establish...