Localization of a radioactive source in an urban environment using Bayesian Metropolis methods

Jason Hite, John Mattingly, Dan Archer, Michael Willis, Andrew Rowe, Kayleigh Bray, Jake Carter, James Ghawaly

Research output: Contribution to journalArticlepeer-review

19 Scopus citations

Abstract

We present a method for localizing an unknown source of radiation in an urban environment using a distributed detector network. This method employs statistical parameter estimation techniques, relying on an approximation for the response of a detector to the source based on a simplified model of the underlying transport phenomena, combined with a Metropolis-type sampler that is modified to propagate the effect of fixed epistemic uncertainties in the material macroscopic cross sections of objects in the scene. We apply this technique to data collected during a measurement campaign conducted in a realistic analog for an urban scene using a network of six mobile detectors. Our initial results are able to localize the source to within approximately 8m over a scene of size 300m × 200m in two independent trials with 30min count times, including a characterization of the uncertainty associated with the poorly known macroscopic cross sections of objects in the scene. In these measurements, the nearest detectors were between 20m to 30m from the source, and recorded count rates between approximately 3 and 13 times background. A few detectors had line-of-sight to the source, while the majority were obscured by objects present in the scene. After extending our model to account for the orientation of the detectors and correcting for anomalies in the measurement data we were able to further improve the localization accuracy to approximately 2m in both trials.

Funding

This work was funded by the NNSA Office of Defense Nuclear Nonproliferation R&D through the Consortium for Nonproliferation Enabling Capabilities (CNEC) and the experiments described in this article were performed in cooperation with Oak Ridge National Laboratory.

FundersFunder number
Office of Defense Nuclear Nonproliferation
Oak Ridge National Laboratory

    Keywords

    • Bayesian parameter estimation
    • Sensor networks
    • Source localization

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