Title :
Frequency domain beamformer for a 3-D sediment volume imaging synthetic aperture sonar
Author :
Magoon, Jonathan R Pearson ; Nelson, Matthew A. ; Sternlicht, Daniel D.
Author_Institution :
Appl. Signal Technol., Inc., Torrance, CA, USA
Abstract :
A frequency domain beamforming approach is described for 3-D sediment volume imaging synthetic aperture sonars (SAS). The beamformer, designed for systems with receiver arrays oriented transverse to the vehicle, performs standard delay and sum processing for each ping in the across-track direction followed by multi-ping synthetic aperture processing of elevation planes in the along-track direction. The beamformer can be run repeatedly with varying along-track squint angles revealing aspect-dependent target features. The collection of elevation planes, independently computed by the frequency domain beamformer, can be processed simultaneously on multiple threads of execution, in order to take advantage of multi-CPU machines.
Keywords :
array signal processing; frequency-domain analysis; geophysical signal processing; multiprocessing systems; oceanographic techniques; sonar arrays; sonar signal processing; synthetic aperture sonar; 3D sediment volume imaging SAS; aspect dependent target features; beamformer; delay and sum processing; elevation plane; frequency domain beamforming; multiCPU machines; multiping synthetic aperture processing; receiver arrays; synthetic aperture sonar; Acoustic beams; Array signal processing; Buried object detection; Cities and towns; Delay; Frequency domain analysis; Sediments; Sonar applications; Synthetic aperture sonar; Vehicles;
Conference_Titel :
OCEANS 2009, MTS/IEEE Biloxi - Marine Technology for Our Future: Global and Local Challenges
Conference_Location :
Biloxi, MS
Print_ISBN :
978-1-4244-4960-6
Electronic_ISBN :
978-0-933957-38-1
