Towards Automatic Threat Detection: A Survey of Advances of Deep Learning within X-ray Security Imaging

X-ray security screening is widely used to maintain aviation/transport security, and its significance poses a particular interest in automated screening systems. This paper aims to review computerised X-ray security imaging algorithms by taxonomising the field into conventional machine learning and contemporary deep learning applications. The first part briefly discusses the classical machine learning approaches utilised within X-ray security imaging, while the latter part thoroughly investigates the use of modern deep learning algorithms. The proposed taxonomy sub-categorises the use of deep learning approaches into supervised, semi-supervised and unsupervised learning, with a particular focus on object classification, detection, segmentation and anomaly detection tasks. The paper further explores well-established X-ray datasets and provides a performance benchmark. Based on the current and future trends in deep learning, the paper finally presents a discussion and future directions for X-ray security imagery.

[1]  Jaakko Lehtinen,et al.  Analyzing and Improving the Image Quality of StyleGAN , 2020, 2020 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR).

[2]  Adrian Schwaninger,et al.  Human-machine interaction in x-ray screening , 2009, 43rd Annual 2009 International Carnahan Conference on Security Technology.

[3]  J. S. Caygill,et al.  Current trends in explosive detection techniques. , 2012, Talanta.

[4]  Qiang Lu,et al.  Using Image Processing Methods to Improve the Explosive Detection Accuracy , 2006, IEEE Transactions on Systems, Man, and Cybernetics, Part C (Applications and Reviews).

[5]  Haigang Zhang,et al.  Data Augmentation for X-Ray Prohibited Item Images Using Generative Adversarial Networks , 2019, IEEE Access.

[6]  Adrian Schwaninger,et al.  Automation in visual inspection tasks: X-ray luggage screening supported by a system of direct, indirect or adaptable cueing with low and high system reliability , 2018, Ergonomics.

[7]  A. Schwaninger,et al.  Adaptive Computer-Based Training Increases on the Job Performance of X-Ray Screeners , 2007, 2007 41st Annual IEEE International Carnahan Conference on Security Technology.

[8]  Lewis D. Griffin,et al.  Automated detection of cars in transmission X-ray images of freight containers , 2014, 2014 11th IEEE International Conference on Advanced Video and Signal Based Surveillance (AVSS).

[9]  Lewis D. Griffin,et al.  Detection of cargo container loads from X-ray images , 2015 .

[10]  Domingo Mery,et al.  Modern Computer Vision Techniques for X-Ray Testing in Baggage Inspection , 2017, IEEE Transactions on Systems, Man, and Cybernetics: Systems.

[11]  Jimin Liang,et al.  Improving the detection of low-density weapons in x-ray luggage scans using image enhancement and novel scene-decluttering techniques , 2004, J. Electronic Imaging.

[12]  Haigang Zhang,et al.  A GAN-Based Image Generation Method for X-Ray Security Prohibited Items , 2018, PRCV.

[13]  Eric Goodman,et al.  Convolutional Neural Networks for Automatic Threat Detection in Security X-Ray Images , 2018, 2018 17th IEEE International Conference on Machine Learning and Applications (ICMLA).

[14]  Fei Tony Liu,et al.  Isolation-Based Anomaly Detection , 2012, TKDD.

[15]  Mongi A. Abidi,et al.  A Combinational Approach to the Fusion, De-noising and Enhancement of Dual-Energy X-Ray Luggage Images , 2005, 2005 IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR'05) - Workshops.

[16]  Mongi A. Abidi,et al.  Screener Evaluation of Pseudo-Colored Single Energy X-ray Luggage Images , 2005, 2005 IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR'05) - Workshops.

[17]  Toby P. Breckon,et al.  An evaluation of region based object detection strategies within X-ray baggage security imagery , 2017, 2017 IEEE International Conference on Image Processing (ICIP).

[18]  Peter Bock,et al.  Identification of Objects-of-Interest in X-Ray Images , 2006, 35th IEEE Applied Imagery and Pattern Recognition Workshop (AIPR'06).

[19]  Jinyi Liu,et al.  Deep Convolutional Neural Network Based Object Detector for X-Ray Baggage Security Imagery , 2019, 2019 IEEE 31st International Conference on Tools with Artificial Intelligence (ICTAI).

[20]  M. Singh,et al.  Optimizing image enhancement for screening luggage at airports , 2005, CIHSPS 2005. Proceedings of the 2005 IEEE International Conference on Computational Intelligence for Homeland Security and Personal Safety, 2005..

[21]  Domingo Mery,et al.  Automated X-Ray Object Recognition Using an Efficient Search Algorithm in Multiple Views , 2013, 2013 IEEE Conference on Computer Vision and Pattern Recognition Workshops.

[22]  Xing Xu,et al.  X-ray Image Segmentation by Attribute Relational Graph Matching , 2006, 2006 8th international Conference on Signal Processing.

[23]  J. W. Chan,et al.  View synthesis of KDEX imagery for 3D security X-ray imaging , 2011, ICDP.

[24]  Clark C. Guest,et al.  Segmentation of suspicious objects in an x-ray image using automated region filling approach , 2009, Optical Engineering + Applications.

[25]  B.R. Abidi,et al.  Improving Weapon Detection in Single Energy X-Ray Images Through Pseudocoloring , 2006, IEEE Transactions on Systems, Man, and Cybernetics, Part C (Applications and Reviews).

[26]  Haigang Zhang,et al.  Prohibited Item Detection in Airport X-Ray Security Images via Attention Mechanism Based CNN , 2018, PRCV.

[27]  Chih-Cheng Hung,et al.  Automatic image analysis process for the detection of concealed weapons , 2009, CSIIRW '09.

[28]  Alexei A. Efros,et al.  Image-to-Image Translation with Conditional Adversarial Networks , 2016, 2017 IEEE Conference on Computer Vision and Pattern Recognition (CVPR).

[29]  Domingo Mery,et al.  Automated Detection of Threat Objects Using Adapted Implicit Shape Model , 2016, IEEE Transactions on Systems, Man, and Cybernetics: Systems.

[30]  R. Paranjape,et al.  Model-based probabilistic relaxation segmentation applied to threat detection in airport X-ray imagery , 1999, Engineering Solutions for the Next Millennium. 1999 IEEE Canadian Conference on Electrical and Computer Engineering (Cat. No.99TH8411).

[31]  Uwe Ewert,et al.  Dual High-Energy X-ray Digital Radiography for Material Discrimination in Cargo Containers , 2014 .

[32]  Domingo Mery,et al.  Automated detection in complex objects using a tracking algorithm in multiple X-ray views , 2011, CVPR 2011 WORKSHOPS.

[33]  Ning Zhang,et al.  A Study on Optimization Methods of X-Ray Machine Recognition for Aviation Security System , 2015 .

[34]  Yuanxiang Li,et al.  Structural X-ray Image Segmentation for Threat Detection by Attribute Relational Graph Matching , 2005, 2005 International Conference on Neural Networks and Brain.

[35]  Alethea L. Blackler,et al.  Airport security screeners expertise and implications for interface design , 2014 .

[36]  François Chollet,et al.  Xception: Deep Learning with Depthwise Separable Convolutions , 2016, 2017 IEEE Conference on Computer Vision and Pattern Recognition (CVPR).

[37]  Malarvizhi Subramani,et al.  Evaluating One Stage Detector Architecture of Convolutional Neural Network for Threat Object Detection Using X-Ray Baggage Security Imaging , 2020, Rev. d'Intelligence Artif..

[38]  Muhammet Bastan,et al.  Visual Words on Baggage X-Ray Images , 2011, CAIP.

[39]  Yoshua Bengio,et al.  How transferable are features in deep neural networks? , 2014, NIPS.

[40]  Toby P. Breckon,et al.  The Good, the Bad and the Ugly: Evaluating Convolutional Neural Networks for Prohibited Item Detection Using Real and Synthetically Composited X-ray Imagery , 2019, ArXiv.

[41]  David G. Lowe,et al.  Distinctive Image Features from Scale-Invariant Keypoints , 2004, International Journal of Computer Vision.

[42]  Lawrence Carin,et al.  Automatic threat recognition of prohibited items at aviation checkpoint with x-ray imaging: a deep learning approach , 2018, Defense + Security.

[43]  Léon Bottou,et al.  Wasserstein GAN , 2017, ArXiv.

[44]  Lewis D. Griffin,et al.  Basic Image Features (BIFs) Arising from Approximate Symmetry Type , 2009, SSVM.

[45]  Adrian Schwaninger,et al.  Using speed measures to predict performance in x-ray luggage screening tasks , 2009, 43rd Annual 2009 International Carnahan Conference on Security Technology.

[46]  D. Mery,et al.  Automated Object Recognition in Baggage Screening using Multiple X-ray Views , 2013 .

[47]  Zhongqiu Liu,et al.  Detection and Recognition of Security Detection Object Based on Yolo9000 , 2018, 2018 5th International Conference on Systems and Informatics (ICSAI).

[48]  Yoshua Bengio,et al.  Gradient-based learning applied to document recognition , 1998, Proc. IEEE.

[49]  Domingo Mery,et al.  GDXray: The Database of X-ray Images for Nondestructive Testing , 2015, Journal of Nondestructive Evaluation.

[50]  Lewis D. Griffin,et al.  Measuring and correcting wobble in large-scale transmission radiography. , 2016, Journal of X-ray science and technology.

[51]  Lewis D. Griffin,et al.  Threat Image Projection (TIP) into X-ray images of cargo containers for training humans and machines , 2016, 2016 IEEE International Carnahan Conference on Security Technology (ICCST).

[52]  Stefan Roth,et al.  Object Detection in Multi-view X-Ray Images , 2012, DAGM/OAGM Symposium.

[53]  Mercedes G. Merayo,et al.  FORTIFIER: a FORmal disTrIbuted Framework to Improve the dEtection of thReatening objects in baggage , 2018, J. Inf. Telecommun..

[54]  Taimur Hassan,et al.  Cascaded Structure Tensor Framework for Robust Identification of Heavily Occluded Baggage Items from X-ray Scans , 2020, ArXiv.

[55]  Geoffrey E. Hinton,et al.  ImageNet classification with deep convolutional neural networks , 2012, Commun. ACM.

[56]  A. Schwaninger,et al.  Computer-Based Training Increases Efficiency in X-Ray Image Interpretation by Aviation Security Screeners , 2007, 2007 41st Annual IEEE International Carnahan Conference on Security Technology.

[57]  Ross B. Girshick,et al.  Mask R-CNN , 2017, 1703.06870.

[58]  Adrian Schwaninger,et al.  Airport Security Screener Competency: A Cross-Sectional and Longitudinal Analysis , 2013 .

[59]  Adrian Schwaninger,et al.  Do multiview X-ray systems improve X-ray image interpretation in airport security screening ? , 2011 .

[60]  Lewis D. Griffin,et al.  Using deep learning on X-ray images to detect threats , 2016 .

[61]  Domingo Mery,et al.  Computer Vision for X-Ray Testing , 2015, Springer International Publishing.

[62]  K Wells,et al.  A review of X-ray explosives detection techniques for checked baggage. , 2012, Applied radiation and isotopes : including data, instrumentation and methods for use in agriculture, industry and medicine.

[63]  Nicole Hättenschwiler,et al.  Relevance of visual inspection strategy and knowledge about everyday objects for X-ray baggage screening , 2017, 2017 International Carnahan Conference on Security Technology (ICCST).

[64]  Toby P. Breckon,et al.  GANomaly: Semi-Supervised Anomaly Detection via Adversarial Training , 2018, ACCV.

[65]  N. C. Murray,et al.  Evaluation of automatic explosive detection systems , 1995, Proceedings The Institute of Electrical and Electronics Engineers. 29th Annual 1995 International Carnahan Conference on Security Technology.

[66]  Sameer Singh,et al.  Image segmentation optimisation for X-ray images of airline luggage , 2004, Proceedings of the 2004 IEEE International Conference on Computational Intelligence for Homeland Security and Personal Safety, 2004. CIHSPS 2004..

[67]  T. P. Breckon,et al.  Improving feature-based object recognition for X-ray baggage security screening using primed visualwords , 2013, 2013 IEEE International Conference on Industrial Technology (ICIT).

[68]  Lewis D. Griffin,et al.  Automated X-ray Image Analysis for Cargo Security: Critical Review and Future Promise , 2016, Journal of X-ray science and technology.

[69]  Kaiming He,et al.  Faster R-CNN: Towards Real-Time Object Detection with Region Proposal Networks , 2015, IEEE Transactions on Pattern Analysis and Machine Intelligence.

[70]  Domingo Mery,et al.  Automatic Defect Recognition in X-Ray Testing Using Computer Vision , 2017, 2017 IEEE Winter Conference on Applications of Computer Vision (WACV).

[71]  Nabil Aouf,et al.  Automatic x-ray image segmentation and clustering for threat detection , 2017, Security + Defence.

[72]  Leo Breiman,et al.  Random Forests , 2001, Machine Learning.

[73]  Lewis D. Griffin,et al.  Representation-learning for anomaly detection in complex x-ray cargo imagery , 2017, Defense + Security.

[74]  Chi-Keung Tang,et al.  KNN Matting , 2012, 2012 IEEE Conference on Computer Vision and Pattern Recognition.

[75]  Adrian Schwaninger,et al.  Expertise, Automation and Trust in X-Ray Screening of Cabin Baggage , 2019, Front. Psychol..

[76]  Jerone Andrews,et al.  Anomaly Detection for Security Imaging , 2017 .

[77]  Michael S. Bernstein,et al.  ImageNet Large Scale Visual Recognition Challenge , 2014, International Journal of Computer Vision.

[78]  Jian Sun,et al.  Deep Residual Learning for Image Recognition , 2015, 2016 IEEE Conference on Computer Vision and Pattern Recognition (CVPR).

[79]  Domingo Mery,et al.  Object Recognition in Baggage Inspection Using Adaptive Sparse Representations of X-ray Images , 2015, PSIVT.

[80]  Domingo Mery,et al.  Inspection of Complex Objects Using Multiple-X-Ray Views , 2015, IEEE/ASME Transactions on Mechatronics.

[81]  Ali Farhadi,et al.  YOLOv3: An Incremental Improvement , 2018, ArXiv.

[82]  이지혜,et al.  Expertise , 2008, Current Biology.

[83]  R. Paranjape,et al.  Segmentation of handguns in dual energy X-ray imagery of passenger carry-on baggage , 1998, Conference Proceedings. IEEE Canadian Conference on Electrical and Computer Engineering (Cat. No.98TH8341).

[84]  Muhammet Bastan,et al.  Multi-view object detection in dual-energy X-ray images , 2015, Machine Vision and Applications.

[85]  Toby P. Breckon,et al.  Evaluation of a Dual Convolutional Neural Network Architecture for Object-wise Anomaly Detection in Cluttered X-ray Security Imagery , 2019, 2019 International Joint Conference on Neural Networks (IJCNN).

[86]  Jian Zhang,et al.  Joint Shape and Texture Based X-Ray Cargo Image Classification , 2014, 2014 IEEE Conference on Computer Vision and Pattern Recognition Workshops.

[87]  Gal Chechik,et al.  Object separation in x-ray image sets , 2010, 2010 IEEE Computer Society Conference on Computer Vision and Pattern Recognition.

[88]  Thomas M. Breuel,et al.  Visual cortex inspired features for object detection in X-ray images , 2012, Proceedings of the 21st International Conference on Pattern Recognition (ICPR2012).

[89]  P. Erick.Svec,et al.  Sparse KNN - a method for object recognition over x-ray images using KNN based in sparse reconstruction , 2016 .

[90]  Taimur Hassan,et al.  Detecting Prohibited Items in X-Ray Images: a Contour Proposal Learning Approach , 2020, 2020 IEEE International Conference on Image Processing (ICIP).

[91]  Samet Akcay,et al.  On using feature descriptors as visual words for object detection within X-ray baggage security screening , 2016, ICDP.

[92]  Basak Oztan,et al.  Automated firearms detection in cargo x-ray images using RetinaNet , 2019, Defense + Commercial Sensing.

[93]  Luc Van Gool,et al.  Speeded-Up Robust Features (SURF) , 2008, Comput. Vis. Image Underst..

[94]  Victoria Cutler,et al.  Use of threat image projection (TIP) to enhance security performance , 2009, 43rd Annual 2009 International Carnahan Conference on Security Technology.

[95]  Domingo Mery,et al.  Object Recognition in X-ray Testing Using Adaptive Sparse Representations , 2016 .

[96]  Clark C. Guest,et al.  Layer separation for material discrimination cargo imaging system , 2010, Electronic Imaging.

[97]  Xun Wang,et al.  Enhanced color coding scheme for kinetic depth effect X-ray (KDEX) imaging , 2010, 44th Annual 2010 IEEE International Carnahan Conference on Security Technology.

[98]  Peter E. Hart,et al.  Nearest neighbor pattern classification , 1967, IEEE Trans. Inf. Theory.

[99]  Aggelos K. Katsaggelos,et al.  A Logarithmic X-Ray Imaging Model for Baggage Inspection: Simulation and Object Detection , 2017, 2017 IEEE Conference on Computer Vision and Pattern Recognition Workshops (CVPRW).

[100]  Jaroslaw W. Tuszynski,et al.  A method for automatic manifest verification of container cargo using radiography images , 2013 .

[101]  Jan-Martin O. Steitz,et al.  Multi-view X-ray R-CNN , 2018, GCPR.

[102]  Lewis D. Griffin,et al.  Automated detection of smuggled high-risk security threats using Deep Learning , 2016, ICDP.

[103]  Lewis D. Griffin,et al.  Reduction of wobble artefacts in images from mobile transmission X-ray vehicle scanners , 2014, 2014 IEEE International Conference on Imaging Systems and Techniques (IST) Proceedings.

[104]  Lewis D. Griffin,et al.  A deep learning framework for the automated inspection of complex dual-energy x-ray cargo imagery , 2017, Defense + Security.

[105]  D Mery,et al.  Object recognition in X-ray testing using an efficient search algorithm in multiple views , 2017 .

[106]  Domingo Mery,et al.  Detection of regular objects in baggage using multiple x-ray views , 2013 .

[107]  Deepak Kumar Jain,et al.  An evaluation of deep learning based object detection strategies for threat object detection in baggage security imagery , 2019, Pattern Recognit. Lett..

[108]  Cordelia Schmid,et al.  A sparse texture representation using local affine regions , 2005, IEEE Transactions on Pattern Analysis and Machine Intelligence.

[109]  Wei Liu,et al.  SSD: Single Shot MultiBox Detector , 2015, ECCV.

[110]  Lawrence Carin,et al.  Toward Automatic Threat Recognition for Airport X-ray Baggage Screening with Deep Convolutional Object Detection , 2019, ArXiv.

[111]  Andre Mouton,et al.  A review of automated image understanding within 3D baggage computed tomography security screening. , 2015, Journal of X-ray science and technology.

[112]  Chengan Guo,et al.  A Deep Learning Method for Detection of Dangerous Equipment , 2018, 2018 Eighth International Conference on Information Science and Technology (ICIST).

[113]  Georgios Giasemidis,et al.  Graph clustering and variational image segmentation for automated firearm detection in X-ray images , 2019, IET Image Process..

[114]  Toby P. Breckon,et al.  Transfer learning using convolutional neural networks for object classification within X-ray baggage security imagery , 2016, 2016 IEEE International Conference on Image Processing (ICIP).

[115]  Ross B. Girshick,et al.  Focal Loss for Dense Object Detection , 2017, IEEE Transactions on Pattern Analysis and Machine Intelligence.

[116]  Shaun Helman,et al.  The impact of image based factors and training on threat detection performance in X-ray screening. , 2008 .

[117]  Bill Triggs,et al.  Histograms of oriented gradients for human detection , 2005, 2005 IEEE Computer Society Conference on Computer Vision and Pattern Recognition (CVPR'05).

[118]  Lawrence Carin,et al.  Background adaptive faster R-CNN for semi-supervised convolutional object detection of threats in x-ray images , 2020, Defense + Commercial Sensing.

[119]  Sergey Ioffe,et al.  Inception-v4, Inception-ResNet and the Impact of Residual Connections on Learning , 2016, AAAI.

[120]  Ashraful Islam,et al.  Correlating Belongings with Passengers in a Simulated Airport Security Checkpoint , 2018, ICDSC.

[121]  Andrew Zisserman,et al.  Representing shape with a spatial pyramid kernel , 2007, CIVR '07.

[122]  Marti A. Hearst Trends & Controversies: Support Vector Machines , 1998, IEEE Intell. Syst..

[123]  George Zentai X-ray imaging for homeland security , 2010 .

[124]  Adrian Schwaninger,et al.  How Image Based Factors and Human Factors Contribute to Threat Detection Performance in X-Ray Aviation Security Screening , 2008, USAB.

[125]  Yi Li,et al.  R-FCN: Object Detection via Region-based Fully Convolutional Networks , 2016, NIPS.

[126]  Fang Wan,et al.  SIXray: A Large-Scale Security Inspection X-Ray Benchmark for Prohibited Item Discovery in Overlapping Images , 2019, 2019 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR).

[127]  G. G. Stokes "J." , 1890, The New Yale Book of Quotations.

[128]  Ning Zhang,et al.  A Study of X-Ray Machine Image Local Semantic Features Extraction Model based on bag-of-words for Airport Security , 2015 .

[129]  Toby P. Breckon,et al.  Multi-view Object Detection Using Epipolar Constraints within Cluttered X-ray Security Imagery , 2021, 2020 25th International Conference on Pattern Recognition (ICPR).

[130]  Taimur Hassan,et al.  Trainable Structure Tensors for Autonomous Baggage Threat Detection Under Extreme Occlusion , 2020, ArXiv.

[131]  Andrew Zisserman,et al.  Very Deep Convolutional Networks for Large-Scale Image Recognition , 2014, ICLR.

[132]  Matthew Caldwell,et al.  Limits on transfer learning from photographic image data to X-ray threat detection. , 2020, Journal of X-ray science and technology.

[133]  Cordelia Schmid,et al.  A Performance Evaluation of Local Descriptors , 2005, IEEE Trans. Pattern Anal. Mach. Intell..

[134]  Weiping Jin,et al.  Modified Adaptive Implicit Shape Model for Object Detection , 2019, ICONIP.

[135]  Maneesha Singh,et al.  Explosives detection systems (EDS) for aviation security , 2003, Signal Process..

[136]  Adrian Schwaninger,et al.  Emotional Exhaustion and Job Satisfaction in Airport Security Officers – Work–Family Conflict as Mediator in the Job Demands–Resources Model , 2016, Front. Psychol..

[137]  Toby P. Breckon,et al.  Skip-GANomaly: Skip Connected and Adversarially Trained Encoder-Decoder Anomaly Detection , 2019, 2019 International Joint Conference on Neural Networks (IJCNN).

[138]  Toby P. Breckon,et al.  Evaluating the Transferability and Adversarial Discrimination of Convolutional Neural Networks for Threat Object Detection and Classification within X-Ray Security Imagery , 2019, 2019 18th IEEE International Conference On Machine Learning And Applications (ICMLA).

[139]  Toby P. Breckon,et al.  Using Deep Convolutional Neural Network Architectures for Object Classification and Detection Within X-Ray Baggage Security Imagery , 2018, IEEE Transactions on Information Forensics and Security.

[140]  Yufeng Zheng,et al.  A vehicle threat detection system using correlation analysis and synthesized x-ray images , 2013, Defense, Security, and Sensing.

[141]  Sepp Hochreiter,et al.  GANs Trained by a Two Time-Scale Update Rule Converge to a Local Nash Equilibrium , 2017, NIPS.

[142]  Adrian Schwaninger,et al.  Why laptops should be screened separately when conventional x-ray screening is used , 2012, 2012 IEEE International Carnahan Conference on Security Technology (ICCST).

[143]  Haigang Zhang,et al.  Semantic Segmentation for Prohibited Items in Baggage Inspection , 2019, IScIDE.

[144]  Gongyin Chen,et al.  Dual-energy X-ray radiography for automatic high-Z material detection , 2007 .

[145]  Muhammet Bastan,et al.  Object Recognition in Multi-View Dual Energy X-ray Images , 2013, BMVC.

[146]  Toby P. Breckon,et al.  On the Impact of Object and Sub-Component Level Segmentation Strategies for Supervised Anomaly Detection within X-Ray Security Imagery , 2019, 2019 18th IEEE International Conference On Machine Learning And Applications (ICMLA).

[147]  Lewis D. Griffin,et al.  Tackling the x-ray cargo inspection challenge using machine learning , 2016, SPIE Defense + Security.

[148]  Lewis D. Griffin,et al.  Detection of concealed cars in complex cargo X-ray imagery using deep learning , 2016, Journal of X-ray science and technology.

[149]  J. A. Hartigan,et al.  A k-means clustering algorithm , 1979 .

[150]  Robert C. Bolles,et al.  Random sample consensus: a paradigm for model fitting with applications to image analysis and automated cartography , 1981, CACM.

[151]  Matthew Caldwell,et al.  Transferring x-ray based automated threat detection between scanners with different energies and resolution , 2017, Security + Defence.

[152]  Sergey Ioffe,et al.  Rethinking the Inception Architecture for Computer Vision , 2015, 2016 IEEE Conference on Computer Vision and Pattern Recognition (CVPR).

[153]  Xianglong Liu,et al.  Occluded Prohibited Items Detection: An X-ray Security Inspection Benchmark and De-occlusion Attention Module , 2020, ACM Multimedia.

[154]  Matthew Caldwell,et al.  “Unexpected Item in the Bagging Area”: Anomaly Detection in X-Ray Security Images , 2019, IEEE Transactions on Information Forensics and Security.