Paper
23 July 1999 Synthetic aperture sonar for small unmanned underwater vehicles
James T. Christoff, Jose E. Fernandez
Author Affiliations +
Abstract
The shallow water and very shallow water environment is a very hostile region for sonar operations, however it is still considered one of the best options for mine detection and classification in this region. The water depth and small vehicle size demands that the sonar be small and low power. A conflicting need exists for very high-resolution sonar, which implies a very large aperture, that can discriminate between small mines and natural or benign manmade objects. Resolution cells of approximately 1/16 the size of the targets smallest dimension are generally considered necessary to classify a target with high confidence level and low false classification rate. The synthetic aperture sonar concept can meet the requirement for small size and high resolution. This paper will review the development of the SAS technology at CSS from a simple, single channel first generation SAS to the present real-time dual frequency multi-channel SAS. All these system were designed to be compatible with small underwater vehicles. The SAS signal processing evolved from a very simple delay and sum beamformer to a more complex motion error modulated beamformer. This paper will show images of these systems as they evolved from the earlier 15-cm resolution SAS to the present system producing 2.5 cm and 7.5-cm resolution from a dual high/low frequency SAS, respectively. The present system operates in real-time and has generated the current images using a physical array that is less than 0.6 meters in length and 0.15 meters in height.
© (1999) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
James T. Christoff and Jose E. Fernandez "Synthetic aperture sonar for small unmanned underwater vehicles", Proc. SPIE 3711, Information Systems for Navy Divers and Autonomous Underwater Vehicles Operating in Very Shallow Water and Surf Zone Regions, (23 July 1999); https://doi.org/10.1117/12.354667
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Cited by 1 scholarly publication.
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KEYWORDS
Image processing

Phased arrays

Independent component analysis

Receivers

Acoustics

Image resolution

Mining

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