Title :
Reverberation rejection with a dual-line towed array
Author :
Schurman, Iman W.
Author_Institution :
Appl. Phys. Lab., Johns Hopkins Univ., Laurel, MD, USA
fDate :
4/1/1996 12:00:00 AM
Abstract :
Low-frequency bottom reverberation from explosive sources was measured with a dual-line horizontal towed array during a 1991 system engineering trial. The receiver´s parallel line arrays were processed coherently in order to unambiguously resolve the reverberation field in azimuth. Initial beamforming that assumed a straight-and-parallel array configuration led to poor or erroneous ambiguity resolution, suggesting the system was deformed significantly from the assumed shape. In the absence of reliable shape measurement data, the array shape was deduced acoustically using tow ship signals and the direct blast of an explosive source. The estimated shape was then used in a shape-compensated beamformer to produce azimuthally unambiguous estimates of the reverberation field. Backlobe rejection of more than 20 dB was attained for both direct blast and distant reverberation energy
Keywords :
acoustic signal processing; acoustic wave reflection; array signal processing; explosions; reverberation; underwater sound; ambiguity resolution; azimuth reverberation field; azimuthally unambiguous estimates; backlobe rejection; beamforming; direct blast energy; distant reverberation energy; dual line horizontal towed array; dual line towed array; explosive source; explosive sources; low frequency bottom reverberation; parallel line arrays; receiver; rejection reverberation; reverberation field; shape compensated beamformer; shape measurement data; system engineering trial; tow ship signals; Acoustic noise; Apertures; Array signal processing; Explosives; Reverberation; Sea measurements; Shape measurement; Signal resolution; Systems engineering and theory; Working environment noise;
Journal_Title :
Oceanic Engineering, IEEE Journal of
