Title :
A relaxation labeling technique for computing sea surface velocities from sea surface temperature
Author :
Wu, Q.X. ; Pairman, D.
Author_Institution :
Manaaki Whenua-Landcare Res., Wellington, New Zealand
fDate :
1/1/1995 12:00:00 AM
Abstract :
The paper applies a relaxation labeling technique to computing sea surface advective velocities from sequential satellite sea surface temperature (SST) images. The technique first identifies prominent feature points in a pair of time-lapsed SST images, and then estimates sea surface current velocities by establishing feature point correspondences between the two images. In the context of relaxation labelling operation the authors have constructed a compatibility coefficient expressing flow field spatial smoothness, or coherency, suitable for fluid motion. New results are reported and are compared to those obtained using two other methods: the geostrophic currents from in situ measurements and the maximum cross-correlation (MCC) method. The three kinds of velocities are shown to be consistent to one another
Keywords :
infrared imaging; oceanographic techniques; remote sensing; advective velocities; coherency; compatibility coefficient; feature point correspondences; flow field spatial smoothness; fluid motion; geostrophic currents; maximum cross-correlation method; relaxation labeling technique; sea surface current velocities; sea surface temperature; sea surface velocities; time-lapsed SST images; Current measurement; Image processing; Image recognition; Image resolution; Labeling; Ocean temperature; Pattern matching; Satellite broadcasting; Sea measurements; Sea surface;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
