2023
DOI: 10.3390/electronics12051179
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Material-Aware Path Aggregation Network and Shape Decoupled SIoU for X-ray Contraband Detection

Abstract: X-ray contraband detection plays an important role in the field of public safety. To solve the multi-scale and obscuration problem in X-ray contraband detection, we propose a material-aware path aggregation network to detect and classify contraband in X-ray baggage images. Based on YoloX, our network integrates two new modules: multi-scale smoothed atrous convolution (SCA) and material-aware coordinate attention modules (MCA). In SAC, an improved receptive field-enhanced network structure is proposed by combin… Show more

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Cited by 7 publications
(3 citation statements)
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References 56 publications
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“…Li et al improved the YOLOv5 model by compressing channels, optimizing parameters, and proposing a new YOLO-FIRI model for infrared target detection problems such as low recognition rates and high false alarm rates due to long distances, weak energy, and low resolutions [35]. Xiang et al integrated both MCA and SCA modules into the YOLOx framework, enabling the acquisition of material information for contraband while expanding the model's receptive field, thereby enhancing the detection efficiency [36]. These improvements have significantly impacted the detection quality of contraband detection algorithms.…”
Section: Deep Learning For Contraband X-ray Image Detectionmentioning
confidence: 99%
“…Li et al improved the YOLOv5 model by compressing channels, optimizing parameters, and proposing a new YOLO-FIRI model for infrared target detection problems such as low recognition rates and high false alarm rates due to long distances, weak energy, and low resolutions [35]. Xiang et al integrated both MCA and SCA modules into the YOLOx framework, enabling the acquisition of material information for contraband while expanding the model's receptive field, thereby enhancing the detection efficiency [36]. These improvements have significantly impacted the detection quality of contraband detection algorithms.…”
Section: Deep Learning For Contraband X-ray Image Detectionmentioning
confidence: 99%
“…The mean accuracies of the improved algorithm reached 88.2%, 89.2%, and 70.5%, respectively, and improved by 2.5%, 1.2%, and 5.0%, respectively, on the three test sets of the PIDray datasets, respectively. Xiang et al [22] designed a new network integrated MSA (multi-scale smoothed atrous) convolution and MCA (material-aware coordinate attention) module based on YOLOX algorithm, and introduced the SD-SIoU (shape decoupled SIoU) loss function for learning the prohibited items shape features. The improved model reached the accuracies of 92.92% and 91.1% on the OPIXray [23] datasets and SIXray datasets, respectively.…”
Section: Introductionmentioning
confidence: 99%
“…Finally, they added a detection head with inputs of low-level and high-resolution feature maps to improve the model’s ability to detect small objects. Xiang et al [ 12 ] proposed an enhanced network architecture to address the issue of severe object occlusion in X-ray prohibited item detection. This enhanced structure comprised multiscale smoothed atrous convolutions and a material-aware coordinate attention module.…”
Section: Introductionmentioning
confidence: 99%