贝叶斯方法用于海底管道缺陷检测 CT 重建

IF 2 2区 数学 Q1 MATHEMATICS, APPLIED
Silja L Christensen, N. A. B. Riis, Marcelo Pereyra, J. S. Jørgensen
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引用次数: 0

摘要

海底管道可以通过二维横断面x射线计算机断层扫描(CT)进行检查。传统的重建方法产生管道内部的图像,可以进行后处理以检测可能的缺陷。本文提出了一种内置缺陷检测的贝叶斯CT重建方法。我们将重构分解为两个图像的和;一个包含管道整体结构,一个包含缺陷,并在吉布斯格式中同时推断图像。我们的方法要求两幅图像的先验信息非常明显,即第一幅图像应该包含大规模的分层管结构,第二幅图像应该包含小的、连贯的缺陷。在数据完整和有限的情况下,我们通过数值实验使用海底管道扫描的合成和真实CT数据来演示我们的方法。实验证明了该方法在各种数据设置下的有效性,其重建质量与现有技术相当,同时也为缺陷检测提供了不确定性量化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Bayesian approach for CT reconstruction with defect detection for subsea pipelines
Subsea pipelines can be inspected via 2D cross-sectional X-ray computed tomography (CT). Traditional reconstruction methods produce an image of the pipe's interior that can be post-processed for detection of possible defects. In this paper we propose a novel Bayesian CT reconstruction method with built-in defect detection. We decompose the reconstruction into a sum of two images; one containing the overall pipe structure, and one containing defects, and infer the images simultaneously in a Gibbs scheme. Our method requires that prior information about the two images is very distinct, i.e. the first image should contain the large-scale and layered pipe structure, and the second image should contain small, coherent defects. We demonstrate our methodology with numerical experiments using synthetic and real CT data from scans of subsea pipes in cases with full and limited data. Experiments demonstrate the effectiveness of the proposed method in various data settings, with reconstruction quality comparable to existing techniques, while also providing defect detection with uncertainty quantification.
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来源期刊
Inverse Problems
Inverse Problems 数学-物理:数学物理
CiteScore
4.40
自引率
14.30%
发文量
115
审稿时长
2.3 months
期刊介绍: An interdisciplinary journal combining mathematical and experimental papers on inverse problems with theoretical, numerical and practical approaches to their solution. As well as applied mathematicians, physical scientists and engineers, the readership includes those working in geophysics, radar, optics, biology, acoustics, communication theory, signal processing and imaging, among others. The emphasis is on publishing original contributions to methods of solving mathematical, physical and applied problems. To be publishable in this journal, papers must meet the highest standards of scientific quality, contain significant and original new science and should present substantial advancement in the field. Due to the broad scope of the journal, we require that authors provide sufficient introductory material to appeal to the wide readership and that articles which are not explicitly applied include a discussion of possible applications.
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