Title :
Oceanographic variability in shallow-water acoustics and the dual role of the sea bottom
Author_Institution :
US Naval Res. Lab., Stennis Space Center, MS, USA
fDate :
1/1/1993 12:00:00 AM
Abstract :
Acoustic propagation in shallow water is examined. Multipath propagation and extensive boundary interactions, which along with a host of other phenomena produce a highly variable and often unpredictable acoustic field, are discussed. The responsible mechanisms, and hence the acoustic effects, cover a wide range of temporal and spatial scales and are classified as either deterministic or random, although the two types often act in concert. Because of extensive interactions with the sound field, the bottom can severely degrade waterborne propagation, although the sea bottom (and subbottom) can provide a seismic path that not only is relatively stable, but exists even under environmental conditions that preclude an effective waterborne path. Propagation in the bottom is particularly significant at very low frequencies. These various aspects of shallow-water acoustics are illustrated using the results of experiments conducted in diverse geographic areas
Keywords :
acoustic signal processing; oceanographic techniques; oceanography; sediments; underwater sound; Navy; acoustic effects; acoustic fluctuations; acoustic propagation; deterministic effects; dual role; extensive boundary interactions; interactions; multipath propagation; random effects; sea bottom; seismic path; shallow-water acoustics; sound field; waterborne propagation; Acoustic noise; Acoustic propagation; Acoustic signal processing; Array signal processing; Degradation; Frequency; Oceans; Spatial coherence; Underwater acoustics; Working environment noise;
Journal_Title :
Oceanic Engineering, IEEE Journal of
