Title :
Spatially-Aware Temporal Anomaly Mapping of Gamma Spectra
Author :
Reinhart, Alex ; Athey, Alex ; Biegalski, Steven
Author_Institution :
Dept. of Stat., Carnegie Mellon Univ., Pittsburgh, PA, USA
Abstract :
For security, environmental, and regulatory purposes it is useful to continuously monitor wide areas for unexpected changes in radioactivity. We report on a temporal anomaly detection algorithm which uses mobile detectors to build a spatial map of background spectra, allowing sensitive detection of any anomalies through many days or months of monitoring. We adapt previously-developed anomaly detection methods, which compare spectral shape rather than count rate, to function with limited background data, allowing sensitive detection of small changes in spectral shape from day to day. To demonstrate this technique we collected daily observations over the period of six weeks on a 0.33 square mile research campus and performed source injection simulations.
Keywords :
gamma-ray detection; gamma-ray spectra; nuclear engineering computing; radioactivity measurement; anomaly detection methods; background spectra spatial map; environmental purpose; gamma spectra; radioactivity; regulatory purpose; security purpose; source injection simulations; spatially-aware temporal anomaly mapping; temporal anomaly detection algorithm; Covariance matrices; Detectors; Dispersion; Monitoring; Spatial databases; Spectral shape; Thyristors; Change detection algorithms; gamma-ray detection; radiation monitoring; spectral analysis;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2014.2317593
