Title :
Resolution of the ocean wave propagation direction in SAR imagery
Author :
Vachon, Paris W. ; Raney, R. Keith
Author_Institution :
Canada Centre for Remote Sensing, Ottawa, Ont., Canada
fDate :
1/1/1991 12:00:00 AM
Abstract :
There is an inherent 180° ambiguity in the derived wave propagation direction when using conventional spectral analysis techniques on standard synthetic aperture radar (SAR) image products. Three different techniques are successfully used to resolve this ambiguity in propagation direction using a single pass of airborne SAR data. The fact that the SAR is characterized by a large time-bandwidth product is used to advantage. A sequence of individual looks extracted from the Doppler spectrum represents images of the scene collected at a sequence of discretely delayed intervals of time. The techniques utilized include cross-correlation-based motion analysis of a pair of looks, phase weighting based upon a pair of looks and the ocean wave dispersion relation, and a three-dimensional spectral analysis. The phase weighting technique is also demonstrated for a Seasat SAR scene
Keywords :
ocean waves; oceanographic techniques; remote sensing by radar; Doppler spectrum; SAR imagery; Seasat SAR; cross-correlation-based motion analysis; ocean wave dispersion relation; ocean wave propagation direction; phase weighting; remote sensing; three-dimensional spectral analysis; Data mining; Delay effects; Dispersion; Image resolution; Layout; Motion analysis; Ocean waves; Spaceborne radar; Spectral analysis; Synthetic aperture radar;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
