We focus on the validation of a simplified approach to bathymetry retrieval from hyperspectral imagery (HSI) in the very shallow water limit (less than 1–2 m), where many existing bathymetric LIDAR sensors perform poorly. In this depth regime, near infra-red (NIR) reflectance depends primarily on water depth (water absorption) and bottom type, with suspended constituents playing a secondary role. Our processing framework exploits two optimal regions where a simple model depending on bottom type and water depth can be applied in the very shallow limit. These two optimal spectral regions are at a local maximum in the near infra-red reflectance near 810 nm, corresponding to a local minimum in absorption, and a maximum in the first derivative o...
International audienceThis article presents a novel statistical method for mapping water column prop...
Deriving inherent optical properties (IOPs) and other water quality parameters from satellite remote...
Hyperspectral remote sensing is an established technology for bathymetric mapping of shallow water a...
We focus on the validation of a simplified approach to bathymetry retrieval from hyperspectral image...
A number of institutions, including the Naval Research Laboratory (NRL), have developed look up tabl...
High resolution airborne hyperspectral imagery and high resolution, low pulse energy bathymetric ful...
Knowledge of water depth is a crucial for planning military amphibious operations. Bathymetry from r...
We present a large-scale quantitative test of a hyperspectral remote-sensing reflectance algorithm. ...
At present, most machine learning bathymetry retrieval models use the band reflectance as the invers...
The use of passive satellite sensor data in shallow waters is complicated by the combined atmospheri...
In order to retrieve bathymetry, substratum type and the concentrations of the optically active cons...
International audienceCoastal water mapping from remote-sensing hyperspectral data suffers from poor...
Mapping shallow bathymetry by means of optical remote sensing has been a challenging task of growing...
Accurate determination of water depth is indispensable in multiple aspects of civil engineering (do...
Remote sensing has emerged as a powerful method of characterizing river systems but is subject to se...
International audienceThis article presents a novel statistical method for mapping water column prop...
Deriving inherent optical properties (IOPs) and other water quality parameters from satellite remote...
Hyperspectral remote sensing is an established technology for bathymetric mapping of shallow water a...
We focus on the validation of a simplified approach to bathymetry retrieval from hyperspectral image...
A number of institutions, including the Naval Research Laboratory (NRL), have developed look up tabl...
High resolution airborne hyperspectral imagery and high resolution, low pulse energy bathymetric ful...
Knowledge of water depth is a crucial for planning military amphibious operations. Bathymetry from r...
We present a large-scale quantitative test of a hyperspectral remote-sensing reflectance algorithm. ...
At present, most machine learning bathymetry retrieval models use the band reflectance as the invers...
The use of passive satellite sensor data in shallow waters is complicated by the combined atmospheri...
In order to retrieve bathymetry, substratum type and the concentrations of the optically active cons...
International audienceCoastal water mapping from remote-sensing hyperspectral data suffers from poor...
Mapping shallow bathymetry by means of optical remote sensing has been a challenging task of growing...
Accurate determination of water depth is indispensable in multiple aspects of civil engineering (do...
Remote sensing has emerged as a powerful method of characterizing river systems but is subject to se...
International audienceThis article presents a novel statistical method for mapping water column prop...
Deriving inherent optical properties (IOPs) and other water quality parameters from satellite remote...
Hyperspectral remote sensing is an established technology for bathymetric mapping of shallow water a...