Crack detection based on multi-scale Faster RCNN with attention

Q3 Engineering 光电工程 Pub Date : 2021-01-15 DOI:10.12086/OEE.2021.200112
Haiyong Chen, Zhao Peng, Haowei Yan
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引用次数: 1

Abstract

The background of the EL image of a photovoltaic cell under electroluminescence (EL) presents complex non-uniform texture features, and there are grain pseudo-defects similar to cracks. At the same time, the cracks appear as multi-scale features with various shapes. The above mentioned difficulties have presented great chal-lenges for the detection task. Therefore, this paper proposes a multi-scale Faster-RCNN model that integrates at-tention. On the one hand, an improved feature pyramid network is used to obtain multi-scale advanced semantic feature maps to improve the network's feature expression ability of multi-scale crack defects. On the other hand, an improved attention region proposal network A-RPN is adopted to increase the model's attention to crack defects and suppress the characteristics of complex background and grain pseudo-defects. At the same time, in the RPN network training process, a loss function Focal loss is used to reduce the proportion of simple samples in the training process, so that the model pays more attention to the samples that are difficult to distinguish. Experimental results show that this algorithm improves the accuracy of crack defect detection in EL images, reaching nearly 95%.
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基于多尺度快速RCNN的裂纹检测
光电电池在电致发光(EL)下的EL图像背景呈现出复杂的非均匀纹理特征,存在类似裂纹的颗粒伪缺陷。同时,裂缝呈现出形状各异的多尺度特征。上述困难对检测任务提出了很大的挑战。因此,本文提出了一种多尺度的Faster-RCNN模型。一方面,利用改进的特征金字塔网络获得多尺度高级语义特征映射,提高网络对多尺度裂纹缺陷的特征表达能力;另一方面,采用改进的关注区域建议网络A-RPN,提高模型对裂纹缺陷的关注程度,抑制复杂背景和晶粒伪缺陷的特征。同时,在RPN网络的训练过程中,采用损失函数Focal loss来降低训练过程中简单样本的比例,使模型更加关注难以区分的样本。实验结果表明,该算法提高了EL图像中裂纹缺陷检测的准确率,达到近95%。
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来源期刊
光电工程
光电工程 Engineering-Electrical and Electronic Engineering
CiteScore
2.00
自引率
0.00%
发文量
6622
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