Title :
Noise-Adjusted Principal Component Analysis for Buried Radioactive Target Detection and Classification
Author :
Du, Qian ; Wei, Wei ; May, Daniel ; Younan, Nicolas H.
Author_Institution :
Dept. of Electr. & Comput. Eng., Mississippi State Univ., Starkville, MS, USA
Abstract :
We present a noise-adjusted principal component analysis (NAPCA)-based approach to the detection and classification of buried radioactive targets with short sensor dwell time. The data used in the experiments is the gamma spectroscopy collected by a Sodium Iodide (NAI) scintillation detector. Spectral transformation methods are first applied to the data, followed by NAPCA. Then k-nearest neighbor (kNN) clustering is applied to the NAPCA-transformed feature subspace to achieve detection or classification. This method is evaluated using a database of 240 spectral measurements consisting of background (construction sand), benign material measurements (uranium ore), and target measurements (depleted uranium) at various depths. Compared to other widely used algorithms for depleted uranium, the proposed technique can provide better performance.
Keywords :
buried object detection; gamma-ray spectroscopy; principal component analysis; radiation monitoring; radioactivity measurement; solid scintillation detectors; uranium; NAI scintillation detector; NAPCA-transformed feature subspace; U; buried radioactive target classification; buried radioactive target detection; construction sand; depleted uranium; gamma spectroscopy; k-nearest neighbor clustering; noise-adjusted principal component analysis; sensor dwell time; sodium iodide scintillator; spectral transformation methods; uranium ore; Buried object detection; Principal component analysis; Spectral analysis; Buried target detection; Gamma- ray spectral analysis; classification; noise-adjusted principal component analysis; principal component analysis;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2010.2084105
