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Citation |
Gebbie J, Siderius M, Nielsen P, Miller JH, Crocker S, Giard J. J. Acoust. Soc. Am. 2013; 133(5): 3527. |
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Affiliation |
Elec. and Comput. Eng. Dept., Portland State Univ., 1900 SW 4th Ave., Ste.160, Portland, OR 97201jgebbie@ece.pdx.edu. |
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Copyright |
(Copyright © 2013, American Institute of Physics) |
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DOI |
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PMID |
23655683 |
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Abstract |
Passive acoustic detection and localization of small surface craft has a number of practical applications, such as monitoring and protecting sensitive marine habitats. Moored passive equipment can be cumbersome to deploy and communicate with, so AUV-mounted devices are being investigated as an alternative. The GLASS'12 experiment was designed to assess the feasibility of using a hybrid autonomous underwater vehicle outfitted with a compact volumetric nose array as a data collection platform. The array consisted of five vertical elements and 4 in a tetrahedral arrangement, and the hybrid underwater vehicle had the capability operating in either glider or propeller-driven modes. The rigid design of the array minimized element location mismatch and enabled the use of aggressive adaptive beamforming in 3-D. This facilitated isolation of broadband multipath arrivals originating from the motor of a small rubber boat. Cross-correlation of beams enabled the time-lag between the arrivals to be measured, which, in turn yielded information about the target range. The underlying formulation bears similarity to the passive fathometer [J. Acoust. Soc. Am. 120(3) (2006)], which exploits surface wave noise rather than ship noise. This presentation will focus on the array beamforming and potential applications for localization and environmental sensing. Language: en |