Cross-Correlation assisted and Time-Difference-of-Arrival based leak source localization on fluid-filled pipelines

2022 11th International Conference on Modern Circuits and Systems Technologies (MOCAST) Pub Date : 2022-06-08 DOI:10.1109/mocast54814.2022.9837640

Kostas Angelopoulos, G. Glentis

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Abstract

In this paper a study of the Cross-Correlation (CC) based, Time Difference of Arrival (TDOA) method for leak source localization on fluid-filled, metallic pipelines is presented. Several, frequency domain CC estimators (General Cross-Correlators or GCC) are considered for the implementation of the localization technique, while real leakage, vibro-acoustic dataseries, captured from a real workplace building’s tap water pipe installation are utilized within the current analysis. Certain metrics like the rate of acceptable leak positioning results against all localization estimation experiments conducted, as well as the Relative Localization Error (LRE) of the accepted estimations are calculated and illustrated in order to shed light on the performance characteristics of the TDOA approach (in general and also per adopted CC estimator). The above study is pursued within the framework of project ESTHISIS, with end target the development of a smart sensor system for leakage detection in pipes carrying hydrocarbon products.

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基于互相关辅助和到达时间差分的充液管道泄漏源定位

本文研究了一种基于互相关(CC)的到达时差(TDOA)方法在充液金属管道泄漏源定位中的应用。为了实现定位技术，考虑了几个频域CC估计器(通用交叉相关器或GCC)，同时在当前分析中使用了从真实工作场所的自来水管道安装中捕获的真实泄漏振动声学数据集。为了阐明TDOA方法(一般情况下以及每个采用的CC估计器)的性能特征，计算并说明了某些指标，如针对所有进行的定位估计实验的可接受泄漏定位结果的比率，以及可接受估计的相对定位误差(LRE)。上述研究在ESTHISIS项目框架内进行，最终目标是开发一种用于烃类产品输送管道泄漏检测的智能传感器系统。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 11th International Conference on Modern Circuits and Systems Technologies (MOCAST)

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