Title :
High-frequency reverberation in shallow water
Author :
Hines, Paul C. ; Ellis, Dale D.
Author_Institution :
Defence Res. Establ. Atlantic, Dartmouth, NS, Canada
fDate :
4/1/1997 12:00:00 AM
Abstract :
Monostatic reverberation measurements were collected in shallow water, over a coarse gravel and cobble bottom, 100 m deep, off the coast of Nova Scotia. Data were collected at frequencies of 21, 28, and 36 kHz using linear FM pulses of 2-kHz bandwidth and 0.160-s duration. An anchored, high-frequency active sonar array deployed at a depth of 42 m was used to collect the data. The reverberation measurements were compared with estimates computed with the NUWC generic sonar model (GSM). The data were reasonably well modeled for times greater than 0.2 s after pulse transmission by neglecting surface reverberation and using Lambert´s rule for bottom backscattering with a scattering coefficient of -27 dB, independent of frequency. At all three frequencies, the data and model show a peak approximately 0.9 s after pulse transmission. This peak results from a focusing effect that the downward-refracting sound-speed profile has on the interaction of the rays with the bottom
Keywords :
acoustic wave scattering; oceanographic techniques; reverberation; seafloor phenomena; underwater sound; 0.169 s; 0.2 s; 2 kHz; 21 kHz; 28 kHz; 36 kHz; 42 m; Lambert´s rule; NUWC generic sonar model; Nova Scotia; bottom backscattering; coarse gravel; cobble; downward-refracting sound-speed profile; focusing effect; high-frequency active sonar array; high-frequency reverberation; linear FM pulses; pulse transmission; reverberation measurements; scattering coefficient; shallow water; surface reverberation; Acoustic measurements; Acoustic scattering; Acoustic sensors; Frequency; GSM; Geometry; Reverberation; Sensor arrays; Sonar measurements; Surface topography;
Journal_Title :
Oceanic Engineering, IEEE Journal of
