在模块化架构中使用基于小波的多变量方法开发油井故障分类器

SPE Journal Pub Date : 2024-06-01 DOI:10.2118/221463-pa

T. L. B. Dias, M. A. Marins, C. L. Pagliari, R. M. E. Barbosa, M. D. De Campos, E. A. B. Silva, S. L. Netto

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摘要

故障检测和诊断是油井异常事件检测过程中的基本问题。本文介绍了一个开源模块化系统，该系统可基于机器学习技术有效设计故障检测器和分类器。本文所考虑的事件是巴西石油控股公司（Petrobras）开发的公开 3W 数据库的一部分。我们考虑了具有不同动态和模式的七个故障类别，以及几个正常运行的实例。我们还展示了使用小波特征的有效性，小波特征可提供多尺度时频分析，目标是建立更真实的事件模型。通过将小波特征和统计特征相结合，我们解决了 3W 数据集带来的一些挑战，从而得到了更准确、更稳健的分类器，在多类问题中的平衡准确率达到 98.6%，比之前文献报道的 94.2% 有了显著提高。

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Development of Oilwell Fault Classifiers Using a Wavelet-Based Multivariable Approach in a Modular Architecture

Fault detection and diagnosis are fundamental problems in the process of abnormal event detection in oil wells. This paper describes an open-source modular system that enables the efficient design of fault detectors and classifiers based on machine learning techniques. Events considered in this work are part of the publicly available 3W database developed by Petrobras, the Brazilian oil holding. Seven fault classes are considered, with distinct dynamics and patterns, as well as several instances of normal operation. We also show the effectiveness of the use of wavelet-based features, which provide multiscale time-frequency analysis, targeting a more realistic event modeling. A few challenges imposed by the 3W data set are addressed by combining both wavelet and statistical features, resulting in more accurate and more robust classifiers, with a 98.6% balanced accuracy in the multiclass problem, a significant improvement over the 94.2% previously reported in the literature.

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