Bertrand Lubac

TL;DR: In-water hyperspectral remote sensing reflectances (Rrs) were acquired simultaneously with measurements of optically significant parameters at 93 stations in the eastern English Channel and southern North Sea to assess the mechanisms regulating the ocean color variability in a complex coastal environment as mentioned in this paper.

TL;DR: This study evaluated the effects of uncertainties of these optical parameters on the inverted IOPs: the absorption coefficient at the reference wavelength, the extrapolation of particle backscattering coefficient, and the spectral ratios of absorption coefficients of phytoplankton and detritus/gelbstoff, respectively.

TL;DR: The multi-sensor approach together with the multi-conditional algorithm presented here can be applied to the latest generation of ocean color sensors to study SPM dynamics in the coastal ocean at higher spatial and temporal resolutions.

TL;DR: This IOP-centered system can be used to derive IOPs from angular Rrs and offers an alternative to the system centered on the concentration of chlorophyll and is applicable to oceanic and coastal waters as well as to multiband and hyperspectral sensors.

TL;DR: An overview of the current state of spaceborne-based remote sensing techniques used to estimate the topography and bathymetry of beaches, intertidal, and nearshore areas is presented and some insights about the potential of these techniques when using data provided by new and future satellite missions are provided.