Underground pipe cracks classification using image analysis and neuro-fuzzy algorithm

Proceedings of the 1999 IEEE International Symposium on Intelligent Control Intelligent Systems and Semiotics (Cat. No.99CH37014) Pub Date : 1900-01-01 DOI:10.1109/ISIC.1999.796688

S. Sinha, F. Karray, P. Fieguth

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引用次数: 13

Abstract

Pipeline surface defects such as cracks cause major problems for asset managers, particularly when the pipe is buried under the ground. The manual inspection of surface defects in the underground pipes has a number of drawbacks, including subjectivity, varying standards, and high costs. Automatic inspection systems using image processing and artificial intelligence techniques can overcome many of these disadvantages and offer asset managers an opportunity to significantly improve quality and reduce costs. A recognition and classification method for pipe cracks using image analysis and a neuro-fuzzy algorithm is proposed. In the pre-processing step, the cracks in the pipe are extracted from the homogenous background. Then, based on prior knowledge of cracks, five normalised features are extracted. In the classification step, a neuro-fuzzy algorithm is proposed that employs a trapezoidal fuzzy membership function and modified error backpropagation algorithm.

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基于图像分析和神经模糊算法的地下管道裂缝分类

管道表面缺陷(如裂缝)给资产管理公司带来了重大问题，特别是当管道埋在地下时。人工检测地下管道表面缺陷存在主观性强、标准不一、成本高等缺点。使用图像处理和人工智能技术的自动检测系统可以克服许多这些缺点，并为资产管理公司提供显著提高质量和降低成本的机会。提出了一种基于图像分析和神经模糊算法的管道裂纹识别与分类方法。在预处理步骤中，从均匀背景中提取管道中的裂纹。然后，基于裂纹的先验知识，提取5个归一化特征。在分类步骤中，提出了一种采用梯形模糊隶属函数和修正误差反向传播算法的神经模糊算法。

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Proceedings of the 1999 IEEE International Symposium on Intelligent Control Intelligent Systems and Semiotics (Cat. No.99CH37014)

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