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Citation |
Lo KW, Ferguson BG. J. Acoust. Soc. Am. 2012; 132(5): 2997-3017. |
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Affiliation |
Maritime Operations Division, Defence Science and Technology Organisation, NICTA Building, 13 Garden Street, Eveleigh, New South Wales 2015, Australia. |
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Copyright |
(Copyright © 2012, American Institute of Physics) |
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DOI |
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PMID |
23145587 |
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Abstract |
The accurate localization of small arms fire using fixed acoustic sensors is considered. First, the conventional wavefront-curvature passive ranging method, which requires only differential time-of-arrival (DTOA) measurements of the muzzle blast wave to estimate the source position, is modified to account for sensor positions that are not strictly collinear (bowed array). Second, an existing single-sensor-node ballistic model-based localization method, which requires both DTOA and differential angle-of-arrival (DAOA) measurements of the muzzle blast wave and ballistic shock wave, is improved by replacing the basic external ballistics model (which describes the bullet's deceleration along its trajectory) with a more rigorous model and replacing the look-up table ranging procedure with a nonlinear (or polynomial) equation-based ranging procedure. Third, a new multiple-sensor-node ballistic model-based localization method, which requires only DTOA measurements of the ballistic shock wave to localize the point of fire, is formulated. The first method is applicable to situations when only the muzzle blast wave is received, whereas the third method applies when only the ballistic shock wave is received. The effectiveness of each of these methods is verified using an extensive set of real data recorded during a 7 day field experiment. Language: en |