Understanding and quantifying the systematic effects of clutter within a radiation detection scene

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4 Scopus citations

Abstract

Because of low signal-to-noise ratios, the main difficultly in real-world detection scenarios is distinguishing between benign sources and potentially-threatening radioactive materials. The variability in observed signal during a radiation detection search operation can be contributed to the stochastic nature of the underlying physics and the systematic errors inherent to the detection systems employed. This variability is compounded for dynamic detection scenarios, where objects, referred to as clutter, traverse through the primary detection scene, introducing potential suppressions in the observed signal due to the attenuation of background radiation. This study examines the impact that clutter, namely automobiles such as small utility vehicles, sedans, and trucks, produces on the observed signal in a 2 in. × 4 in. × 16 in. NaI(Tl) detector. The clutter is identified and tracked in the detection scene using a time-synced video camera and a 2-D light distance and ranging contextual sensors. Two experiments were performed on the Oak Ridge National Laboratory reservation: one using a distributed source within the scene to understand the systematics of detecting and analyzing the clutter, and the second experiment mimicking an urban environment with large buildings positioned on either side of a roadway. The experiments exhibited unique results in the amount of signal suppression and variability of the cluttered signal, both demonstrating an observable suppression from the clutter-free background. These results reveal a new potential category of signal noise intrinsic to real-world detection scenarios that should be considered when establishing detection thresholds based on expected values.

Original languageEnglish
Pages (from-to)727-737
Number of pages11
JournalJournal of Radioanalytical and Nuclear Chemistry
Volume318
Issue number1
DOIs
StatePublished - Oct 1 2018

Funding

This work was sponsored by the Enabling Capabilities for Nonproliferation and Arms Control Program Area of the Office of Defense Nuclear Nonproliferation Research and Development, National Nuclear Security Administration. Acknowledgements This work was sponsored by the Enabling Capabilities for Nonproliferation and Arms Control Program Area of the Office of Defense Nuclear Nonproliferation Research and Development, National Nuclear Security Administration.

FundersFunder number
Office of Defense Nuclear Nonproliferation Research and Development
National Nuclear Security Administration
Office of Defense Nuclear Nonproliferation

    Keywords

    • Background radiation
    • Background variability
    • Dynamic detection scenarios
    • Gamma-ray detection
    • Radiation clutter
    • Radiation detection noise

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