Title :
Target detection and tracking in shallow water using maximal length sequences
Author :
Jobst, W. ; Whited, L. ; Smith, D.
Author_Institution :
Appl. Marine Phys., LLC, Slidell, LA, USA
Abstract :
In earlier work [1,2] the potential for detecting and tracking a target using maximal length sequences with block zeroing was demonstrated via theory and simulation. In an initial application of this work, a -20 dB acoustic target was detected and tracked at a source-target distance of approximately 170 m in water 2 m deep. Using the sonar equation, the detection performance of a maximal length sequence, block zeroing sonar is compared with the detection performance of a conventional beamforming sonar.
Keywords :
sonar detection; target tracking; acoustic target; beamforming sonar; block zeroing sonar; maximal length sequences; sonar equation; source-target distance; target detection; target tracking; Gain; Mathematical model; Noise; Reverberation; Sonar equipment; Target tracking; block zeroing; m-sequences; maximal length sequences;
Conference_Titel :
Waterside Security Conference (WSS), 2010 International
Conference_Location :
Carrara
Print_ISBN :
978-1-4244-8894-0
DOI :
10.1109/WSSC.2010.5730249
