基于物联网和神经网络的管道多区域同步泄漏检测

Agricultural Sustainability & Security eJournal Pub Date : 2019-11-30 DOI:10.34218/ijaret.10.6.2019.008

Pradyot Aramane, Akshay J Bhattad, M. M., Nishant Aithal, A. P., Prof.Prapulla S.B, Dr.Shoba .G

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引用次数: 3

摘要

近年来，全球人口增长和城市化对水的需求不断增加，使供水压力达到极限。到2025年，18亿人将经历绝对缺水，世界2/3的人口将生活在缺水条件下[1-2]。由于神经网络的计算特性，它在水泄漏检测方面具有最好和最广泛的应用范围，已被证明是一种合适的方法。与使用声学传感器的泄漏检测等替代方法不同，它们没有任何基本缺陷，而声学传感器无法区分流量峰值和泄漏。它们是一种灵活而有效的供水管网泄漏检测方法。根据国际供水协会(IWSA)的一项调查，损失或“未计算的水”(UFW)的数量通常在产量的20-30%之间[3]。在这个项目中，提出了一个神经网络模型，用于根据沿管道部署的传感器的压力值来检测和定位管道中的泄漏。该网络最初使用这些压力值进行训练，然后可用于检测由于泄漏引起的读数异常。用于开发该模型的开源工具是Neuroph Studio。Neuroph是一个用Java编写的神经网络框架。它可以用来在Java程序中创建和训练神经网络。Neuroph提供Java类库和GUI工具来快速创建Java神经网络组件。该模型由多层感知器神经网络组成，成功地识别了多个区域的同时泄漏。当输入数据集的大小从10个值增加到1500个值时，输出的均方误差增加了128倍。但是当这个变化从1500个值变成12000个值时，均方误差增加了1.6倍。因此，总均方误差随着输入大小的增加而急剧减小，从而得出模型稳定且可扩展的结论。

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Iot and Neural Network Based Multi Region and Simultaneous Leakage Detection in Pipelines

The increasing demand for water arising from global population growth and urbanization in recent years is stressing the water supply to its limits. By 2025, 1.8 billion people will experience absolute water scarcity, and 2/3 of the world will be living under water-stressed conditions [1-2]. Neural networks have proved to be an apt approach for water leakage detection as they have the best and most extensive reach on the problem owing to their computational nature. They do not any have basic flaws unlike alternate methods like leakage detection using acoustic sensors which cannot differentiate between spikes in flow and leakage. They are a flexible and efficient approach to detection of leakages in water distribution networks. According to an inquiry made by the International Water Supply Association (IWSA), the amount of lost or “unaccounted for water” (UFW) is typically in the range of 20–30% of production[3]. In this project, a neural network model is proposed for detection and location of leakages in the pipes based on pressure values from sensors deployed along the pipeline. The network is initially trained using these pressure values and can then be used to detect abnormalities in the readings which can be due to leakages. The open source tool used to develop this model is Neuroph Studio. Neuroph is a neural network framework written in Java. It can be used to create and train neural networks in Java programs. Neuroph provides Java class library as well as GUI tool to quickly create Java neural network components. The model consisting of a multilayer perceptron neural network identifies simultaneous leakages in multiple regions successfully. When the size of the input dataset increases from a set of 10 values to a set of 1500 values, the mean square error of outputs increases by 128 times. But when this change is from a set of 1500 values to a set of 12000 values, the mean square error increases by 1.6 times. Thus, the total mean square error decreases drastically with the increase in input size, leading to the conclusion that the model is stable and scalable.

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Agricultural Sustainability & Security eJournal

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