Add to ORKGA shallow water reflectance model was developed for application to optical remote sensing in highly diverse and complex coastal environments. A numerical inversion scheme, based on analytical parameterisation, was applied to airborne hyperspectral imagery collected over two regions of the Western Australian coastline; Jurien Bay and the Ningaloo Marine Park. Detailed maps of water quality, water depth and benthic cover classification were derived with a high degree of accuracy as compared to ground truth data
Research, monitoring and management of large marine protected areas require detailed and up-to-date ...
Remotely sensed earth observation (EO) has revolutionized our understanding of our dynamic environme...
What we believe to be a new inversion procedure for multi- and hyperspectral data in shallow water, ...
During April 2004 the airborne hyperspectral sensor, HyMap, collected data over a shallow coastalreg...
Propagating the inherent uncertainty in hyperspectral remote sensing is key in understanding the lim...
Science, resource management, and defense need algorithms capable of using airborne or satellite ima...
Research, monitoring and management of large marine protected areas require detailed and up-to-date ...
Research, monitoring and management of large marine protected areas require detailed and up-to-date ...
<div><p>Research, monitoring and management of large marine protected areas require detailed and up-...
Hyperspectral remote sensing inversion models utilize spectral information over optically shallow wa...
Knowledge of water depth is a crucial for planning military amphibious operations. Bathymetry from r...
International audienceHyperspectral remote sensing is now an established tool to determine shallow w...
Technical advancements have widened the limits of remote sensing in mapping shallow water benthic ha...
This paper studies the measurement requirements of spectral resolution and radiometric sensitivity t...
What we believe to be a new inversion procedure for multi- and hyperspectral data in shallow water, ...
Research, monitoring and management of large marine protected areas require detailed and up-to-date ...
Remotely sensed earth observation (EO) has revolutionized our understanding of our dynamic environme...
What we believe to be a new inversion procedure for multi- and hyperspectral data in shallow water, ...
During April 2004 the airborne hyperspectral sensor, HyMap, collected data over a shallow coastalreg...
Propagating the inherent uncertainty in hyperspectral remote sensing is key in understanding the lim...
Science, resource management, and defense need algorithms capable of using airborne or satellite ima...
Research, monitoring and management of large marine protected areas require detailed and up-to-date ...
Research, monitoring and management of large marine protected areas require detailed and up-to-date ...
<div><p>Research, monitoring and management of large marine protected areas require detailed and up-...
Hyperspectral remote sensing inversion models utilize spectral information over optically shallow wa...
Knowledge of water depth is a crucial for planning military amphibious operations. Bathymetry from r...
International audienceHyperspectral remote sensing is now an established tool to determine shallow w...
Technical advancements have widened the limits of remote sensing in mapping shallow water benthic ha...
This paper studies the measurement requirements of spectral resolution and radiometric sensitivity t...
What we believe to be a new inversion procedure for multi- and hyperspectral data in shallow water, ...
Research, monitoring and management of large marine protected areas require detailed and up-to-date ...
Remotely sensed earth observation (EO) has revolutionized our understanding of our dynamic environme...
What we believe to be a new inversion procedure for multi- and hyperspectral data in shallow water, ...