Comparative Study of Four Classification Techniques for the Detection of Threats in Baggage from X-Ray Images  

作　　者：Boka Trinité Konan Hyacinthe Kouassi Konan Jules Allani Olivier Asseu Boka Trinité Konan;Hyacinthe Kouassi Konan;Jules Allani;Olivier Asseu(INPHB, EDP-STI, Yamoussoukro, Cte dIvoire;LASTIC, ESATIC, Abidjan, Cte dIvoire)

机构地区：[1]INPHB, EDP-STI, Yamoussoukro, Cte dIvoire [2]LASTIC, ESATIC, Abidjan, Cte dIvoire

出　　处：《Open Journal of Applied Sciences》2024年第12期3490-3499,共10页应用科学(英文)

摘　　要：Baggage screening is crucial for airport security. This paper examines various algorithms for firearm detection in X-ray images of baggage. The focus is on identifying steel barrel bores, which are essential for detonation. For this, the study uses a set of 22,000 X-ray scanned images. After preprocessing with filtering techniques to improve image quality, deep learning methods, such as Convolutional Neural Networks (CNNs), are applied for classification. The results are also compared with Autoencoder and Random Forest algorithms. The results are validated on a second dataset, highlighting the advantages of the adopted approach. Baggage screening is a very important part of the risk assessment and security screening process at airports. Automating the detection of dangerous objects from passenger baggage X-ray scanners can speed up and increase the efficiency of the entire security procedure.Baggage screening is crucial for airport security. This paper examines various algorithms for firearm detection in X-ray images of baggage. The focus is on identifying steel barrel bores, which are essential for detonation. For this, the study uses a set of 22,000 X-ray scanned images. After preprocessing with filtering techniques to improve image quality, deep learning methods, such as Convolutional Neural Networks (CNNs), are applied for classification. The results are also compared with Autoencoder and Random Forest algorithms. The results are validated on a second dataset, highlighting the advantages of the adopted approach. Baggage screening is a very important part of the risk assessment and security screening process at airports. Automating the detection of dangerous objects from passenger baggage X-ray scanners can speed up and increase the efficiency of the entire security procedure.

关 键 词：Deep Learning Baggage Control Convolutional Neural Networks Image Filtering Object Detection Algorithms X-Ray Images Autoencoder Random Forests 

分 类 号：TP3[自动化与计算机技术—计算机科学与技术]