Add to ORKGIn situ techniques provide the most reliable method of examining the geoacoustical properties of marine sediments. In the past, individual in situ surveys have only been able to examine compressional waves over a maximum frequency range of 100 Hz to 50 kHz. A new in situ acoustic device, the Sediment Probing Acoustic Detection Equipment, or SPADE, has been developed, which can emit a variety of pulses, e.g. tonal and swept-frequency, over a continuous frequency range of 10 - 100 kHz. Data from a recent field trial are analysed to obtain the in situ velocity and attenuation over frequency increments of 5 kHz between 10 - 75 kHz. Results imply that scattering is a dominant attenuation mechanism from 10-75 kHz and the media is dispersive for f...
To quantify the variability in the acoustic response of typical shallow-water marine sediments, a se...
Remote prediction of gassy marine sediment properties is important for geohazard assessment. Gas bub...
Interpreting observations of frequency-dependence in backscatter from the seafloor offers many chall...
In situ techniques provide the most reliable method of examining the geoacoustical properties of mar...
Geoacoustic inversion requires a generic knowledge of the frequency-dependence of compressional wave...
The inversion of compressional wave properties is presently emerging as a technique for determining ...
To advance the present understanding of the frequency dependence of compressional wave velocity and ...
Sound propagation in shallow water is characterized by interaction with the oceans surface, volume,...
The importance of estimating acoustic wave properties in saturated marine sediments is well known in...
The importance of estimating compressional wave properties in saturated marine sediments is well kno...
The compressional wave velocity and attenuation of marine sediments are fundamental to marine scienc...
The Shallow Water 2006 ocean acoustics experiment on the New Jersey continental shelf was designed i...
Shear wave properties of ocean bottom sediments are of great importance for sonar system performance...
A method for measuring in situ compressional wave attenuation exploiting the spectral decay of refle...
Acoustic data from two long cores, comprising marine clays and silts taken from Emerald Basin off No...
To quantify the variability in the acoustic response of typical shallow-water marine sediments, a se...
Remote prediction of gassy marine sediment properties is important for geohazard assessment. Gas bub...
Interpreting observations of frequency-dependence in backscatter from the seafloor offers many chall...
In situ techniques provide the most reliable method of examining the geoacoustical properties of mar...
Geoacoustic inversion requires a generic knowledge of the frequency-dependence of compressional wave...
The inversion of compressional wave properties is presently emerging as a technique for determining ...
To advance the present understanding of the frequency dependence of compressional wave velocity and ...
Sound propagation in shallow water is characterized by interaction with the oceans surface, volume,...
The importance of estimating acoustic wave properties in saturated marine sediments is well known in...
The importance of estimating compressional wave properties in saturated marine sediments is well kno...
The compressional wave velocity and attenuation of marine sediments are fundamental to marine scienc...
The Shallow Water 2006 ocean acoustics experiment on the New Jersey continental shelf was designed i...
Shear wave properties of ocean bottom sediments are of great importance for sonar system performance...
A method for measuring in situ compressional wave attenuation exploiting the spectral decay of refle...
Acoustic data from two long cores, comprising marine clays and silts taken from Emerald Basin off No...
To quantify the variability in the acoustic response of typical shallow-water marine sediments, a se...
Remote prediction of gassy marine sediment properties is important for geohazard assessment. Gas bub...
Interpreting observations of frequency-dependence in backscatter from the seafloor offers many chall...