Enhanced Precision in Dam Crack Width Measurement: Leveraging Advanced Lightweight Network Identification for Pixel-Level Accuracy

IF 5 2区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Zihao Wu, Yunchao Tang, Bo Hong, Bingqiang Liang, Yuping Liu
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引用次数: 8

Abstract

In dam engineering, the presence of cracks and crack width are important indicators for diagnosing the health of dams. The accurate measurement of cracks facilitates the safe use of dams. The manual detection of such defects is unsatisfactory in terms of cost, safety, accuracy, and the reliability of evaluation. The introduction of deep learning for crack detection can overcome these issues. However, the current deep learning algorithms possess a large volume of model parameters, high hardware requirements, and difficulty toward embedding in mobile devices such as drones. Therefore, we propose a lightweight MobileNetV2_DeepLabV3 image segmentation network. Furthermore, to prevent interference by noise, light, shadow, and other factors for long-length targets when segmenting, the atrous spatial pyramid pooling (ASPP) module parameters in the DeepLabV3+ network structure were modified, and a multifeature fusion structure was used instead of the parallel structure in ASPP, allowing the network to obtain richer crack features. We collected the images of dam cracks from different environments, established segmentation datasets, and obtained segmentation models through network training. Experiments show that the improved MobileNetV2_DeepLabV3 algorithm exhibited a higher crack segmentation accuracy than the original MobileNetV2_DeepLabV3 algorithm; the average intersection rate attained 83.23%; and the crack detail segmentation was highly accurate. Compared with other semantic segmentation networks, its training time was at least doubled, and the total parameters were reduced by more than 2 to 7 times. After extracting cracks through the semantic segmentation, we proposed to use the method of inscribed circle of crack outline to calculate the maximum width of the detected crack image and to convert it into the actual width of the crack. The maximum relative error rate was 11.22%. The results demonstrated the potential of innovative deep learning methods for dam crack detection.
水坝裂缝宽度测量精度的提高:利用先进的轻量级网络识别实现像素级精度
在大坝工程中,裂缝的存在和裂缝宽度是诊断大坝健康状况的重要指标。裂缝的精确测量有助于大坝的安全使用。人工检测这些缺陷在成本、安全性、准确性和评估的可靠性方面是不令人满意的。引入深度学习进行裂纹检测可以克服这些问题。然而,目前的深度学习算法存在模型参数量大、硬件要求高、难以嵌入无人机等移动设备等问题。因此,我们提出了一种轻量级的MobileNetV2_DeepLabV3图像分割网络。此外,为了防止长长度目标在分割时受到噪声、光、影等因素的干扰,对DeepLabV3+网络结构中的亚属性空间金字塔池(ASPP)模块参数进行修改,采用多特征融合结构代替ASPP中的并行结构,使网络获得更丰富的裂缝特征。采集不同环境下的大坝裂缝图像,建立分割数据集,通过网络训练得到分割模型。实验表明,改进的MobileNetV2_DeepLabV3算法比原MobileNetV2_DeepLabV3算法具有更高的裂缝分割精度;平均交叉口率达到83.23%;裂纹细节分割精度高。与其他语义分割网络相比,其训练时间至少提高了一倍,总参数减少了2 ~ 7倍以上。在通过语义分割提取裂纹后,我们提出使用裂纹轮廓内切圆的方法计算检测到的裂纹图像的最大宽度,并将其转换为实际裂纹宽度。最大相对错误率为11.22%。结果显示了创新的深度学习方法在大坝裂缝检测中的潜力。
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来源期刊
International Journal of Intelligent Systems
International Journal of Intelligent Systems 工程技术-计算机:人工智能
CiteScore
11.30
自引率
14.30%
发文量
304
审稿时长
9 months
期刊介绍: The International Journal of Intelligent Systems serves as a forum for individuals interested in tapping into the vast theories based on intelligent systems construction. With its peer-reviewed format, the journal explores several fascinating editorials written by today''s experts in the field. Because new developments are being introduced each day, there''s much to be learned — examination, analysis creation, information retrieval, man–computer interactions, and more. The International Journal of Intelligent Systems uses charts and illustrations to demonstrate these ground-breaking issues, and encourages readers to share their thoughts and experiences.
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