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Article type: Research Article
Authors: Manerikar, Ankit; * | Li, Fangda | Kak, Avinash C.
Affiliations: School of Electrical and Computer Engineering, Purdue University, West Lafayette, IN, USA
Correspondence: [*] Corresponding author: Ankit Manerikar, School of Electrical and Computer Engineering, Purdue University, West Lafayette, USA. E-mail: amanerik@purdue.edu.
Note: [1] This research was funded by the BAA 17-03 AATR contract with Department of Homeland Security’s Science and Technology Directorate.
Abstract: BACKGROUND:Materials characterization made possible by dual energy CT (DECT) scanners is expected to considerably improve automatic detection of hazardous objects in checked and carry-on luggage at our airports. Training a computer to identify the hazardous items from DECT scans however implies training on a baggage dataset that can represent all the possible ways a threat item can packed inside a bag. Practically, however, generating such data is made challenging by the logistics (and the permissions) related to the handling of the hazardous materials. OBJECTIVE:The objective of this study is to present a software simulation pipeline that eliminates the need for a human to handle dangerous materials and that allows for virtually unlimited variability in the placement of such materials in a bag alongside benign materials. METHODS:In this paper, we present our DEBISim software pipeline that carries out an end-to-end simulation of a DECT scanner for virtual bags. The key highlights of DEBISim are: (i) A 3D user-interactive graphics editor for constructing a virtual 3D bag with manual placement of different types of objects in it; (ii) An automated virtual bag generation algorithm for creating randomized baggage datasets; (iii) An ability to spawn deformable sheets and liquid-filled containers in a virtual bag to represent plasticized and liquid explosives; and (iv) A GPU-based X-ray forward modelling block for spiral cone-beam scanners used in checked baggage screening. RESULTS:We have tested our simulator using two standard CT phantoms: the American College of Radiology (ACR) phantom and the NIST security screening phantom as well as on a set of reference materials representing commonly encountered items in checked baggage. For these phantoms, we have assessed the quality of the simulator by comparing the simulated data reconstructions with real CT scans of the same phantoms. The comparison shows that the material-specific properties as well as the CT artifacts in the scans generated by DEBISim are close to those produced by an actual scanner. CONCLUSION:DEBISim is an end-to-end simulation framework for rapidly generating X-ray baggage data for dual energy cone-beam scanners.
Keywords: X-ray based threat detection, baggage security screening, dual energy CT
DOI: 10.3233/XST-200808
Journal: Journal of X-Ray Science and Technology, vol. 29, no. 2, pp. 259-285, 2021
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