基于改进Res-UNet网络的钢铁表面缺陷图像分割研究

Yuan Li; Yanjun Li; Jinchao Liu; Zhun Fan; Qinglin Wang

doi:10.11999/JEIT211350

基于改进Res-UNet网络的钢铁表面缺陷图像分割研究

Yuan Li^*, Yanjun Li, Jinchao Liu, Zhun Fan, Qinglin Wang

^*此作品的通讯作者

自动化学院

科研成果: 期刊稿件 › 文章 › 同行评审

9 引用（Scopus）

摘要

In order to improve the efficiency and accuracy of steel quality images detection and promote the automation level of industry, an improved Res-UNet segmentation algorithm is proposed. ResNet50 is used instead of ResNet18 as the encode module to enhance feature extraction capability. Structure like DenseNet is added to encode module, which helps to make full use of shallow feature maps. A new loss function combining weighted Dice loss and weighted Binary Cross Entropy loss (BCEloss) is used to alleviate data imbalance. Data set enhancement strategy ensures that the network learns more features and improves the segmentation accuracy. Compared with the classic UNet, the Dice coefficient of the improved Res-UNet increases by 12.64% and reaches 0.7930. In all, the improved Res-UNet achieves much better accuracy on various defects while requires much less training efforts. The algorithm proposed by this paper is of practical use in the field of steel surface defect segmentation.

投稿的翻译标题	Research on Segmentation of Steel Surface Defect Images Based on Improved Res-UNet Network
源语言	繁体中文
页（从-至）	1513-1520
页数	8
期刊	Dianzi Yu Xinxi Xuebao/Journal of Electronics and Information Technology
卷	44
期	5
DOI	https://doi.org/10.11999/JEIT211350
出版状态	已出版 - 5月 2022

关键词

Defect segmentation
Dense connection
Image enhancement
Res-UNet
Weighted loss

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10.11999/JEIT211350

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链接到 Scopus 的出版物

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title = "基于改进Res-UNet网络的钢铁表面缺陷图像分割研究",

abstract = "In order to improve the efficiency and accuracy of steel quality images detection and promote the automation level of industry, an improved Res-UNet segmentation algorithm is proposed. ResNet50 is used instead of ResNet18 as the encode module to enhance feature extraction capability. Structure like DenseNet is added to encode module, which helps to make full use of shallow feature maps. A new loss function combining weighted Dice loss and weighted Binary Cross Entropy loss (BCEloss) is used to alleviate data imbalance. Data set enhancement strategy ensures that the network learns more features and improves the segmentation accuracy. Compared with the classic UNet, the Dice coefficient of the improved Res-UNet increases by 12.64% and reaches 0.7930. In all, the improved Res-UNet achieves much better accuracy on various defects while requires much less training efforts. The algorithm proposed by this paper is of practical use in the field of steel surface defect segmentation.",

keywords = "Defect segmentation, Dense connection, Image enhancement, Res-UNet, Weighted loss",

author = "Yuan Li and Yanjun Li and Jinchao Liu and Zhun Fan and Qinglin Wang",

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doi = "10.11999/JEIT211350",

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AU - Li, Yuan

AU - Li, Yanjun

AU - Liu, Jinchao

AU - Fan, Zhun

AU - Wang, Qinglin

PY - 2022/5

Y1 - 2022/5

N2 - In order to improve the efficiency and accuracy of steel quality images detection and promote the automation level of industry, an improved Res-UNet segmentation algorithm is proposed. ResNet50 is used instead of ResNet18 as the encode module to enhance feature extraction capability. Structure like DenseNet is added to encode module, which helps to make full use of shallow feature maps. A new loss function combining weighted Dice loss and weighted Binary Cross Entropy loss (BCEloss) is used to alleviate data imbalance. Data set enhancement strategy ensures that the network learns more features and improves the segmentation accuracy. Compared with the classic UNet, the Dice coefficient of the improved Res-UNet increases by 12.64% and reaches 0.7930. In all, the improved Res-UNet achieves much better accuracy on various defects while requires much less training efforts. The algorithm proposed by this paper is of practical use in the field of steel surface defect segmentation.

AB - In order to improve the efficiency and accuracy of steel quality images detection and promote the automation level of industry, an improved Res-UNet segmentation algorithm is proposed. ResNet50 is used instead of ResNet18 as the encode module to enhance feature extraction capability. Structure like DenseNet is added to encode module, which helps to make full use of shallow feature maps. A new loss function combining weighted Dice loss and weighted Binary Cross Entropy loss (BCEloss) is used to alleviate data imbalance. Data set enhancement strategy ensures that the network learns more features and improves the segmentation accuracy. Compared with the classic UNet, the Dice coefficient of the improved Res-UNet increases by 12.64% and reaches 0.7930. In all, the improved Res-UNet achieves much better accuracy on various defects while requires much less training efforts. The algorithm proposed by this paper is of practical use in the field of steel surface defect segmentation.

KW - Defect segmentation

KW - Dense connection

KW - Image enhancement

KW - Res-UNet

KW - Weighted loss

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JO - Dianzi Yu Xinxi Xuebao/Journal of Electronics and Information Technology

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IS - 5

ER -

基于改进Res-UNet网络的钢铁表面缺陷图像分割研究

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