基于分布式过程监控的新型过程分解算法故障检测与识别

IF 3.3 2区计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS

Journal of Process Control Pub Date : 2025-03-29 DOI:10.1016/j.jprocont.2025.103423

Enrique Luna Villagómez, Vladimir Mahalec

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引用次数: 0

摘要

故障检测和识别的最新进展越来越依赖于通过集中式或分布式方法应用的复杂故障检测技术。该工作没有增加故障检测方法的复杂性，而是引入了一种新的算法来确定相互作用测量的过程块，并在块级别应用主成分分析（PCA）来识别故障发生。此外，我们定义了一种新的贡献图，该贡献图用于缩放不同故障的大小，以方便可视化识别测量变量的异常值和分析故障传播。贝叶斯聚合断层指数和块状断层指数随时间的变化精确定位了断层的起源。所提出的方法产生的故障检测率与田纳西伊士曼过程（TEP）基准上最复杂的集中式或分布式方法相当。由于分解算法依赖于过程流程图和控制回路结构，实践控制工程师可以以直接的方式实现所提出的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Fault detection and identification using a novel process decomposition algorithm for distributed process monitoring

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Fault detection and identification using a novel process decomposition algorithm for distributed process monitoring

Recent progress in fault detection and identification increasingly relies on sophisticated techniques for fault detection, applied through either centralized or distributed approaches. Instead of increasing the sophistication of the fault detection method, this work introduces a novel algorithm for determining process blocks of interacting measurements and applies principal component analysis (PCA) at the block level to identify fault occurrences. Additionally, we define a novel contribution map that scales the magnitudes of disparate faults to facilitate the visual identification of abnormal values of measured variables and analysis of fault propagation. Bayesian aggregate fault index and block fault indices vs. time pinpoint origins of the fault. The proposed method yields fault detection rates on par with most sophisticated centralized or distributed methods on the Tennessee Eastman Process (TEP) benchmark. Since the decomposition algorithm relies on the process flowsheet and control loop structures, practicing control engineers can implement the proposed method in a straightforward manner.

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来源期刊

Journal of Process Control 工程技术-工程：化工

CiteScore

7.00

自引率

11.90%

发文量

159

审稿时长

74 days

期刊介绍： This international journal covers the application of control theory, operations research, computer science and engineering principles to the solution of process control problems. In addition to the traditional chemical processing and manufacturing applications, the scope of process control problems involves a wide range of applications that includes energy processes, nano-technology, systems biology, bio-medical engineering, pharmaceutical processing technology, energy storage and conversion, smart grid, and data analytics among others. Papers on the theory in these areas will also be accepted provided the theoretical contribution is aimed at the application and the development of process control techniques. Topics covered include: • Control applications• Process monitoring• Plant-wide control• Process control systems• Control techniques and algorithms• Process modelling and simulation• Design methods Advanced design methods exclude well established and widely studied traditional design techniques such as PID tuning and its many variants. Applications in fields such as control of automotive engines, machinery and robotics are not deemed suitable unless a clear motivation for the relevance to process control is provided.