Title :
Finding water depths from synthetic remotely sensed images
Author :
Martín, M.L. ; Luna, M.Y. ; Valero, F. ; Lea, S.M. ; Lybanon, M.
Author_Institution :
Dept. de Astrofisica, Univ. Complutense de Madrid, Spain
Abstract :
Mathematical morphology coupled with creation of a time stack image and principal oscillation pattern analysis are used to determine the water depths over a known sloping bottom from synthetic remotely sensed images. The data, produced by a simulator, consisted of 60 images, each 256×256 pixels, separated by 1 second in time. The mathematical depth results are compared with those derived using principal oscillation pattern analysis by which three significant complex pairs of patterns are found with their corresponding characteristic times: e-folding times and periods. From these results and by using the classical hydrodynamic theory of gravity waves, water depths are determined. Both analyses yield small errors for the simulated data, indicating both methods should perform reliably for real data
Keywords :
bathymetry; geophysical signal processing; gravity waves; hydrodynamics; image processing; mathematical morphology; oceanographic techniques; terrain mapping; 256 pixel; 65536 pixel; classical hydrodynamic theory; complex pairs; e-folding times; gravity waves; mathematical morphology; periods; principal oscillation pattern analysis; simulator; sloping bottom; synthetic remotely sensed images; time stack image; water depths; Area measurement; Frequency; Image analysis; Image sequence analysis; Laboratories; Morphology; Pattern analysis; Remote sensing; Sea measurements; Sensor arrays;
Conference_Titel :
Image Analysis and Processing, 1999. Proceedings. International Conference on
Conference_Location :
Venice
Print_ISBN :
0-7695-0040-4
DOI :
10.1109/ICIAP.1999.797703
