TY - GEN
T1 - Improved RetinaNet-Based Defect Detection for Engine Parts
AU - Qi, Zhipei
AU - Zhang, Mengyi
AU - Li, Jun
AU - Bo, Cuimei
AU - Wang, Cunsong
AU - Peng, Hao
N1 - Publisher Copyright:
© 2023 Technical Committee on Control Theory, Chinese Association of Automation.
PY - 2023
Y1 - 2023
N2 - The safety of aviation, vehicles, and ships relies heavily on the quality assurance of engine parts. However, traditional target detection algorithms currently used to detect defects in engine parts do not have a high recognition rate. This paper proposes an improved RetinaNet to address this problem. Firstly, the backbone network ResNet was improved by replacing 7×7 convolutional kernels with stacked 3×3 convolutional kernels, and the C2 layer of ResNet was densely connected to C3, C4, and C5 layers to improve the feature extraction capability. Then we improved the feature pyramid (FPN) structure by adding a convolutional attention module (CBAM) after layers P3 to P5 of the feature pyramid. Finally, the improved RetinaNet was trained on a self-made engine part missing detection dataset, and the model performance was tested separately. The experimental results show that RetinaNet has better performance in detecting engine part defects, but there is a small part of missed detection. The improved model performs well in detecting small targets, and the mean average precision (mAP) reaches 88.4%, which is 1.8% higher than the mAP of the original RetinaNet, furthermore, the average detection time is 0.22s. In the practical scene application, it can quickly and accurately detect defects in engine parts.
AB - The safety of aviation, vehicles, and ships relies heavily on the quality assurance of engine parts. However, traditional target detection algorithms currently used to detect defects in engine parts do not have a high recognition rate. This paper proposes an improved RetinaNet to address this problem. Firstly, the backbone network ResNet was improved by replacing 7×7 convolutional kernels with stacked 3×3 convolutional kernels, and the C2 layer of ResNet was densely connected to C3, C4, and C5 layers to improve the feature extraction capability. Then we improved the feature pyramid (FPN) structure by adding a convolutional attention module (CBAM) after layers P3 to P5 of the feature pyramid. Finally, the improved RetinaNet was trained on a self-made engine part missing detection dataset, and the model performance was tested separately. The experimental results show that RetinaNet has better performance in detecting engine part defects, but there is a small part of missed detection. The improved model performs well in detecting small targets, and the mean average precision (mAP) reaches 88.4%, which is 1.8% higher than the mAP of the original RetinaNet, furthermore, the average detection time is 0.22s. In the practical scene application, it can quickly and accurately detect defects in engine parts.
KW - Machine vision
KW - RetinaNet
KW - deep learning
KW - engine part detection
KW - image recognition
KW - target detection
UR - http://www.scopus.com/inward/record.url?scp=85175569905&partnerID=8YFLogxK
U2 - 10.23919/CCC58697.2023.10241037
DO - 10.23919/CCC58697.2023.10241037
M3 - 会议稿件
AN - SCOPUS:85175569905
T3 - Chinese Control Conference, CCC
SP - 7717
EP - 7722
BT - 2023 42nd Chinese Control Conference, CCC 2023
PB - IEEE Computer Society
T2 - 42nd Chinese Control Conference, CCC 2023
Y2 - 24 July 2023 through 26 July 2023
ER -