Title :
Matched field processing of deep-water ambient noise
Author :
Sotirin, Barbara J. ; Tran, Jean-Marie Q D ; Hodgkiss, William S., Jr.
Author_Institution :
US Naval Ocean Syst. Center, San Diego, CA, USA
fDate :
10/1/1990 12:00:00 AM
Abstract :
Matched-field ambiguity surfaces produced by deep-water ambient-noise data are discussed and quantified in terms of power levels and correlation values. Two processors were implemented (Bartlett and minimum variance) using data at 35 and 95 Hz with similar but distinct vertical angular distributions. In general, the ambiguity surfaces have both diffuse and discrete components. The diffuse distribution extends across the sound channel with correlation values increasing with distance. The discrete sources have higher correlation values and are distributed in a convergence-zone sidelobe structure. Local wind conditions appear to affect the received power but not the correlation values or the processor output power
Keywords :
oceanographic techniques; oceanography; underwater sound; 30 to 100 Hz; Bartlett; Pacific; acoustic noise; ambiguity surfaces; convergence-zone sidelobe; correlation values; deep sea; deep-water ambient noise; matched field processing; measurement; minimum variance; ocean; power levels; propagation; source location method; technique; underwater sound; vertical angular distributions; Acoustic noise; Apertures; Background noise; Low-frequency noise; Marine vehicles; Noise level; Oceans; Sea surface; Signal resolution; Storms;
Journal_Title :
Oceanic Engineering, IEEE Journal of
