Direct inversion of shallow-water bathymetry from EO-1 hyperspectral remote sensing data

Using the US National Aeronautics and space Administration (NASA) Earth Observing-1 Mission (EO-1) hyperion hyperspectral remote sensing data, we study the shallow-water bathymetry inversion in Smith Island Bay. The fast line-of-sight atmospheric analysis of spectral hypercubes module is applied for atmospheric correction, and principal component analysis method combined with scatter diagram and rnaximum likelihood classification is used for seabed classification. The diffuse attenuation coefficient K-d is derived using quasi-analytical algorithm (QAA), which performs well in optically deep water. K-d obtained from QAA requires correction, particularly those derived in some coastal areas with optically shallow water and calculated by direct inversion based on radiative transfer theory to obtain the bathymetry. The direct inversion method derives the water depth quickly, and matches the results from optimized algorithm.