Title :
Estimation of Shallow-Water Breaking-Wave Height From Synthetic Aperture Radar
Author :
Goncharenko, Yuriy V. ; Farquharson, Gordon ; Fengyan Shi ; Raubenheimer, Britt ; Elgar, Steve
Author_Institution :
Appl. Phys. Lab., Univ. of Washington, Seattle, WA, USA
Abstract :
The relationship between synthetic aperture radar (SAR) signatures of depth-limited breaking waves and wave height is studied. Wave height is estimated from SAR images using an empirically derived relationship that exploits the azimuthal shift in SAR images associated with moving scatterers. This relationship is derived from in situ measurements rather than from an idealized model of breaking waves as was done in a previous study. We find that the lengths of the SAR signatures are correlated with the observed significant wave height (the correlation coefficient is 0.78) for a range of wave conditions. The relationship between the wave heights and velocity bandwidths from the field data is similar to that between simulated (with a Boussinesq surface wave model) wave heights and velocity ranges (correlation coefficient = 0.82).
Keywords :
ocean waves; shallow water equations; synthetic aperture radar; Boussinesq surface wave model; SAR image azimuthal shift; SAR signature length; depth-limited breaking wave height estimation; idealized breaking wave model; moving scatterer; shallow-water breaking-wave height estimation; synthetic aperture radar; wave condition range; wave velocity bandwidth; wave velocity range; Bandwidth; Sea measurements; Sea surface; Surface waves; Synthetic aperture radar; Airborne radar; electromagnetic scattering; remote sensing; sea surface; synthetic aperture radar (SAR);
Journal_Title :
Geoscience and Remote Sensing Letters, IEEE
DOI :
10.1109/LGRS.2015.2445492
