有限样本与缺失信息下的工业故障样本重构与生成方法

IF 8.6 1区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS

IEEE Transactions on Systems Man Cybernetics-Systems Pub Date : 2024-09-26 DOI:10.1109/TSMC.2024.3459633

Yifu Ren;Jinhai Liu;He Zhao;Huaguang Zhang

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引用次数: 0

摘要

在数据驱动的故障诊断中，信息缺失的有限样本问题是一个公开的挑战。现有工作在这一领域的应用有限，因为参与样本生成的重建缺失样本可能会损害生成样本的质量。为解决这一问题，本文提出了样本重建和样本生成的联合建模方法。首先，设计了差异化的评估和重建策略，使重建的样本更合理、更真实，从而可以用于样本生成。其次，提出了自适应融合机制，将实际故障样本的知识引入实验室模拟样本，从而保证了生成样本的质量和多样性。这样，信息缺失的有限样本就能得到增强，从而实现可靠的故障诊断建模。所提出的方法被应用于实际工业流程和基准模拟流程。实验结果凸显了所提方法的优越性。

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An Industrial Fault Sample Reconstruction and Generation Method Under Limited Samples With Missing Information

The problem of limited samples with missing information is an open challenge in data-driven fault diagnosis. Existing work has limited application in this field, since the reconstructed missing samples participating in sample generation may hurt the quality of the generated samples. To address this issue, the joint modeling of sample reconstruction and sample generation is proposed. First, the differentiated evaluation and reconstruction strategies are designed, which make reconstructed samples more reasonable and realistic, so that they can be employed to participate in sample generation. Second, the adaptive fusion mechanism is presented to introduce the knowledge of actual fault samples into the laboratory simulation samples, by which the quality and diversity of generated samples are guaranteed. By doing so, limited samples with missing information are enhanced to enable reliable fault diagnosis modeling. The proposed method is applied to the actual industrial process and benchmark simulated process. The experimental results highlight the superiority of the proposed method.

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来源期刊

IEEE Transactions on Systems Man Cybernetics-Systems AUTOMATION & CONTROL SYSTEMS-COMPUTER SCIENCE, CYBERNETICS

CiteScore

18.50

自引率

11.50%

发文量

812

审稿时长

6 months

期刊介绍： The IEEE Transactions on Systems, Man, and Cybernetics: Systems encompasses the fields of systems engineering, covering issue formulation, analysis, and modeling throughout the systems engineering lifecycle phases. It addresses decision-making, issue interpretation, systems management, processes, and various methods such as optimization, modeling, and simulation in the development and deployment of large systems.