Title :
General motion estimation from correlation sonar
Author_Institution :
Thomson-Marconi Sonar SAS, Sophia-Antipolis, France
fDate :
4/1/1998 12:00:00 AM
Abstract :
The displacement of a sonar array can be estimated accurately using the correlation of bottom reverberation signals, at successive sweeps. This is the principle of the pulsed correlation log. In this paper, the conditions and accuracy of array horizontal translation estimation are analyzed. The case of a three-dimensional array is considered first, to show that in this case arbitrary translation and rotation can be estimated. The case of a plane array is then analyzed and it is shown that such an array allows estimation of horizontal translation. The derivation relies on modeling the space-time correlation function of bottom reverberation, which is assumed isotropic. Both directive and omnidirectional transmissions are considered. Accuracy of displacement estimates are derived, showing the influence of wavelength, grazing angle, bandwidth, number of overlapping hydrophones, and reverberation-to-noise ratio
Keywords :
correlation theory; hydrophones; parameter estimation; reverberation; sonar arrays; sonar signal processing; bandwidth; bottom reverberation signals; correlation sonar; directive transmissions; grazing angle; horizontal translation estimation; motion estimation; omnidirectional transmissions; overlapping hydrophones; pulsed correlation log; reverberation-to-noise ratio; sonar array displacement; space-time correlation function; Acoustic scattering; Acoustic signal processing; Acoustic transducers; Apertures; Bandwidth; Delay; Motion estimation; Reverberation; Sonar equipment; Transmitters;
Journal_Title :
Oceanic Engineering, IEEE Journal of
