Feature reused network: a fast segmentation network model for strip steel surfaces defects based on feature reused.

The strip steel is a common metallic material with a wide range of applications in various industries. However, the issue of surface defects that possess high concealment and low discrimination, which arises during the process of inspecting the quality of strip steel, imposes limitations on the overall quality of strip steel products. The challenging task of industrial quality inspection stems from the difficulty and inefficiency of detecting these defects. This paper addresses the aforementioned challenges by introducing a fast segmentation network model called the feature reused network (FR-Net), which aims to improve the detection of small defects and enhance real-time detection performance in the strip steel surface quality inspection process. In FR-Net, a feature fusion module is used to construct a feature reused fusion bypass to improve the segmentation accuracy of small defects. In addition, a lightweight feature refinement module is proposed to enhance the expression capability of the feature extraction network without increasing the computational effort. Finally, an atrous spatial pyramid pooling module with residual connectivity is proposed to fuse deep features of different scales and enhance the perception of objects of different scales. Experiments on the publicly available datasets showed that the proposed FR-Net achieved the mean intersection over union (mIoU) for NEU-Seg and SD-Saliency-900 datasets were 84.53% and 87.24%, respectively. Meanwhile, the detection speed on a single GPU was 58 FPS. Finally, the size of the proposed FR-Net model is only 45 MB, achieving a good trade-off between accuracy, speed, and model size, thus, providing a new solution for network model deployment on industrial equipment. [ABSTRACT FROM AUTHOR]