Add to ORKGCalibration of large hull-mounted sonar transducer arrays is usually done by measuring the performance of individual components in a test tank. Multiple transducer element beam patterns are superimposed and combined with window attenuation and other partial measurements to give an approximation of the total beam pattern. This process often ignores or fails to accurately model factors such as mounting hardware, array misalignment, reflections from the hull structure and other real world absorbers, reflectors and attenuators which can have significant effect on the actual beam pattern. This paper describes an application of a novel technique for in-situ measurement of the far-field beam pattern of an entire installed hydrophone array using an...
A new Kongsberg-Simrad EM120 multibeam echo-sounder has been installed aboard Scripps Institution of...
The angular dependence of seafloor acoustic backscatter,measured with a 12‐kHz multi narrow‐beam ech...
The past ten years have seen remarkable advances in our ability to rapidly and accurately map the se...
Calibration can greatly increase the utility of collecting seafloor backscattering strength with mul...
The use of multibeam echo sounders (MBES) has grown more frequent in applications like seafloor imag...
The acoustic calibration facility at the University of New Hampshire\u27s Chase Ocean Engineering La...
Multibeam echo sounders (MBES) are widely used in applications like seafloor imaging, fisheries, and...
Acoustic backscatter measurements made by NOAA hydrographic multibeam systems are increasingly reque...
Development of protocols for calibrating multibeam sonar by means of the standard-target method is d...
A method to determine the combined transmit/receive beam pattern for a ship-mounted multibeam system...
We detail acoustic backscatter processing for characterization and mapping of the ocean bottom
Quantitative applications of mobile multibeam sonar in aquatic ecology and fisheries require accurat...
A common by-product of multibeam surveys is a measure of the backscattered acoustic intensity from t...
A fully calibrated multibeam swath sonar operating at 160 kHz was used to collect seafloor acoustic ...
Abstract: The scientific community and advanced users have a need for accurately calibrated measurem...
A new Kongsberg-Simrad EM120 multibeam echo-sounder has been installed aboard Scripps Institution of...
The angular dependence of seafloor acoustic backscatter,measured with a 12‐kHz multi narrow‐beam ech...
The past ten years have seen remarkable advances in our ability to rapidly and accurately map the se...
Calibration can greatly increase the utility of collecting seafloor backscattering strength with mul...
The use of multibeam echo sounders (MBES) has grown more frequent in applications like seafloor imag...
The acoustic calibration facility at the University of New Hampshire\u27s Chase Ocean Engineering La...
Multibeam echo sounders (MBES) are widely used in applications like seafloor imaging, fisheries, and...
Acoustic backscatter measurements made by NOAA hydrographic multibeam systems are increasingly reque...
Development of protocols for calibrating multibeam sonar by means of the standard-target method is d...
A method to determine the combined transmit/receive beam pattern for a ship-mounted multibeam system...
We detail acoustic backscatter processing for characterization and mapping of the ocean bottom
Quantitative applications of mobile multibeam sonar in aquatic ecology and fisheries require accurat...
A common by-product of multibeam surveys is a measure of the backscattered acoustic intensity from t...
A fully calibrated multibeam swath sonar operating at 160 kHz was used to collect seafloor acoustic ...
Abstract: The scientific community and advanced users have a need for accurately calibrated measurem...
A new Kongsberg-Simrad EM120 multibeam echo-sounder has been installed aboard Scripps Institution of...
The angular dependence of seafloor acoustic backscatter,measured with a 12‐kHz multi narrow‐beam ech...
The past ten years have seen remarkable advances in our ability to rapidly and accurately map the se...