Title :
Blind separation of signal and multipath interference for synthetic aperture sonar
Author :
Kirsteins, Lvars P.
Author_Institution :
Naval Undersea Warfare Center, Newport, RI, USA
Abstract :
Multipath interference is a major source of noise for synthetic aperture sonar systems operating in shallow water. Motivated by this problem, we present an iterative algorithm for blindly separating the signal from the multipath interference that uses differences in the temporal coherence properties of the signal and multipaths caused by sea surface roughness to estimate the optimum filter weights. The filter weights are estimated by minimizing the circular variance of the phase differences between overlapping vertical phase centers. An important advantage of this approach is that signal-free training data and accurate array calibration information are not needed. Experimentally we show that the blind separation performance is competitive with high resolution angle of arrival estimation and compares favorably to the Cramer-Rao lower bound predicted error.
Keywords :
blind source separation; geophysical signal processing; interference (signal); iterative methods; oceanographic techniques; synthetic aperture sonar; Cramer-Rao lower bound predicted error; angle of arrival estimation; array calibration; blind signal separation; circular variance; iterative algorithm; multipath interference; noise source; optimum filter weights; overlapping vertical phase centers; phase differences; sea surface roughness; shallow water operation; signal-free training data; sonar signal; synthetic aperture sonar; temporal coherence property; Calibration; Coherence; Filters; Interference; Iterative algorithms; Phase estimation; Sea surface roughness; Synthetic aperture sonar; Training data; Water resources;
Conference_Titel :
OCEANS 2003. Proceedings
Conference_Location :
San Diego, CA, USA
Print_ISBN :
0-933957-30-0
DOI :
10.1109/OCEANS.2003.178324
