ICA-Net: Industrial defect detection network based on convolutional attention guidance and aggregation of multiscale features

计算机科学 骨干网 保险丝(电气) 特征(语言学) 人工智能 模式识别(心理学) 卷积神经网络 特征提取 相似性(几何) 领域(数学) 数据挖掘 图像(数学) 工程类 哲学 电气工程 语言学 数学 纯数学 计算机网络
作者
Shilong Zhao,Gang Li,Mingle Zhou,Min Li
出处
期刊:Engineering Applications of Artificial Intelligence [Elsevier BV]
卷期号:126: 107134-107134 被引量:13
标识
DOI:10.1016/j.engappai.2023.107134
摘要

Detecting surface defects in the industry is essential for improving the quality of industrial products and maintaining product safety. However, problems such as the similarity of defects, significant variation in the scale of the target object, and the balance between detection speed and accuracy in industrial inspection scenarios have been considerable research topics in this field. This paper proposes an industrial defect detection network based on convolutional attention-guided and aggregated multiscale features to address these issues (ICA-Net). Firstly, for similarity defects in complex backgrounds, this paper proposes a backbone network with a combination of lightweight convolutional blocks and self-attentive modules to fully extract images' local and global information and enhance the network's expressiveness. Secondly, to make full use of the shallow fine-grained features and deep semantic features of the backbone network to improve the detection capability of defects with significant scale changes, this paper designs a cross-layer multiscale feature fusion network (CEF-Net), which fully fuses the features of adjacent layers and cross-layers through a reweighting feature strategy to enrich the network feature transfer path and ensure the efficient fusion of different scale features in the network. At the same time, the fine-grained feature fusion module (FFM) is used to fuse elements from multiple layers to extract more contextual information, enhance the extraction of fine-grained features and improve the detection capability of complex small targets. Finally, to address the problems of inaccurate regression localization and low detection accuracy of defects in existing industrial algorithms, a new IoU loss function (G-IOU) is proposed for regressing the intersection part of the predicted frame and the actual structure according to the aspect ratio of the real frame during the model regression to improve the accuracy and stability of detection. The experimental results show that 94.1%, 98.6%, 99.4%, 98.8% and 96.5% of [email protected] are obtained on steel, PCB, aluminium, automobile and Xsteel steel metal surface defect datasets, respectively, and 48 FPS is achieved, which is superior to the current mainstream detectors and meets the needs of practical industrial production.
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