1. Real-time airborne gamma-ray background estimation using NASVD with MLE and radiation transport for calibration.
- Author
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Kulisek, J.A., Schweppe, J.E., Stave, S.C., Bernacki, B.E., Jordan, D.V., Stewart, T.N., Seifert, C.E., and Kernan, W.J.
- Subjects
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GAMMA rays , *ESTIMATION theory , *MAXIMUM likelihood statistics , *LAW enforcement , *STATISTICAL models - Abstract
Helicopter-mounted gamma-ray detectors can provide law enforcement officials the means to quickly and accurately detect, identify, and locate radiological threats over a wide geographical area. The ability to accurately distinguish radiological threat-generated gamma-ray signatures from background gamma radiation in real time is essential in order to realize this potential. This problem is non-trivial, especially in urban environments for which the background may change very rapidly during flight. This exacerbates the challenge of estimating background due to the poor counting statistics inherent in real-time airborne gamma-ray spectroscopy measurements. To address this challenge, we have developed a new technique for real-time estimation of background gamma radiation from aerial measurements without the need for human analyst intervention. The method can be calibrated using radiation transport simulations along with data from previous flights over areas for which the isotopic composition need not be known. Over the examined measured and simulated data sets, the method generated accurate background estimates even in the presence of a strong, 60 Co source. The potential to track large and abrupt changes in background spectral shape and magnitude was demonstrated. The method can be implemented fairly easily in most modern computing languages and environments. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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