--> ABSTRACT: Remote Sensing in Marine Environment--Acquiring, Processing, and Interpreting GLORIA Sidescan Sonar Images of Deep Sea Floor, by D. W. O'Leary; #91022 (1989)

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Remote Sensing in Marine Environment--Acquiring, Processing, and Interpreting GLORIA Sidescan Sonar Images of Deep Sea Floor

D. W. O'Leary

The U.S. Geological Survey's remote sensing instrument for regional imaging of the deep sea floor (>400 m water depth) is the GLORIA (Geologic Long-Range Inclined Asdic) sidescan sonar system, designed and operated by the British Institute of Oceanographic Sciences. A 30-sec sweep rate provides for a swath width of approximately 45 km, depending on water depth. The return signal is digitally recorded as 8-bit data to provide a cross-range pixel dimension of 50 m.

Postcruise image processing is carried out by using USGS software. Processing includes precision water-column removal, geometric and radiometric corrections, and contrast enhancement. Mosaicking includes map grid fitting, concatenation, and tone matching. Seismic reflection profiles, acquired along track during the survey, are image correlative and provide a subsurface dimension unique to marine remote sensing. Generally, GLORIA image interpretation is based on brightness variations which are largely a function of (1) surface roughness at a scale of approximately 1 m and (2) slope changes of more than about 4° over distances of at least 50 m. Broader, low-frequency changes in slope that cannot be detected from the GLORIA data can be determined from seismic profiles. Digital files of bathymetry derived from echo-sounder data can be merged with GLORIA image data to create relief models of the sea floor for geomorphic interpretation of regional slope effects.

AAPG Search and Discovery Article #91022©1989 AAPG Annual Convention, April 23-26, 1989, San Antonio, Texas.