Title :
Processing of SeaMARC swath sonar data
Author :
Malinverno, Alberto ; Edwards, Margo H. ; Ryan, William B F
Author_Institution :
Lamont-Doherty Geol. Obs., Columbia Univ., Palisades, NY, USA
fDate :
1/1/1990 12:00:00 AM
Abstract :
A description is given of the acquisition and processing of data collected by a class of high-resolution sonar systems, the SeaMARC (seafloor mapping and remote characterization) swath mapping sonars. The SeaMARC system has two basic configurations: deep-towed, which acquires high-resolution backscatter imagery at slow survey speeds, and shallow-towed, which simultaneously acquires lower resolution backscatter and bathymetric information at higher speeds. Processing techniques applied to the data after acquisition are fairly independent of the initial towing configuration and include: compaction of the original data by decimation; radiometric corrections (noise removal, destriping, beam pattern correction, and contrast enhancement); derivation and merging of vehicle navigation with the sonar data; integration of backscatter and bathymetric information; and geometric corrections for plotting data in geographic coordinates
Keywords :
backscatter; bathymetry; computerised signal processing; data acquisition; geophysics computing; oceanographic techniques; sonar; underwater sound; SeaMARC swath sonar data; acquisition; backscatter; bathymetric information; beam pattern correction; computerised signal processing; contrast enhancement; decimation; deep towed configuration; derivation; destriping; geographic coordinates; geometric corrections; integration; merging; noise removal; plotting; processing; radiometric corrections; remote characterization; seafloor mapping; shallow towed configuration; swath mapping sonars; vehicle navigation; Backscatter; Compaction; Image resolution; Merging; Radio navigation; Radiometry; Sea floor; Sonar applications; Sonar navigation; Vehicles;
Journal_Title :
Oceanic Engineering, IEEE Journal of
