DeepSMOTE with Laplacian matrix decomposition for imbalance instance fault diagnosis

IF 3.7 2区化学 Q2 AUTOMATION & CONTROL SYSTEMS

Chemometrics and Intelligent Laboratory Systems Pub Date : 2025-02-12 DOI:10.1016/j.chemolab.2025.105338

Yuan Xu, Rui-Ze Fan, Yan-Lin He, Qun-Xiong Zhu, Yang Zhang, Ming-Qing Zhang

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引用次数: 0

Abstract

In industrial environments, the unpredictability and irreproducibility of faults often result in insufficient sample sizes and atypical data features, significantly increasing the challenges faced by traditional fault diagnosis methods. To address these issues, this paper proposes a novel fault diagnosis approach that integrates the Borderline embedded deep synthetic minority oversampling technique (BE-DeepSMOTE) with Laplacian matrix decomposition, with the aim of tackling fault identification problems in imbalanced data scenarios. BE-DeepSMOTE employs a deep encoder–decoder framework to enable end-to-end learning and reconstruction of multi-dimensional features. It further incorporates the Borderline SMOTE technique to oversample minority class instances in the feature space, thereby enhancing their representation while ensuring statistical consistency with the original dataset to mitigate data imbalance. Furthermore, we introduce an ensemble classifier that combines Adaboost with Laplacian matrix decomposition. This ensemble classifier leverages the synergy of multiple weak classifiers to extract geometric properties and graph structure similarities from the data, while employing an adaptive weighting mechanism to improve the diagnostic accuracy. Experimental results from two industrial processes demonstrate that the proposed approach significantly enhances the diagnostic accuracy and stability in imbalanced instance environments.

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基于拉普拉斯矩阵分解的深度smote不平衡实例故障诊断

在工业环境中，故障的不可预测性和不可重复性往往导致样本数量不足和数据特征不典型，大大增加了传统故障诊断方法面临的挑战。为了解决这些问题，本文提出了一种新的故障诊断方法，该方法将边界嵌入深度合成少数派过采样技术（BE-DeepSMOTE）与拉普拉斯矩阵分解相结合，以解决不平衡数据场景下的故障识别问题。BE-DeepSMOTE采用深度编码器-解码器框架，实现端到端学习和多维特征重建。它进一步结合了Borderline SMOTE技术在特征空间中对少数类实例进行过采样，从而增强了它们的表示，同时确保与原始数据集的统计一致性，以减轻数据不平衡。此外，我们还引入了一个结合Adaboost和拉普拉斯矩阵分解的集成分类器。该集成分类器利用多个弱分类器的协同作用从数据中提取几何属性和图结构相似性，同时采用自适应加权机制来提高诊断准确性。两个工业过程的实验结果表明，该方法显著提高了不平衡实例环境下的诊断准确性和稳定性。

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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来源期刊

Chemometrics and Intelligent Laboratory Systems 工程技术-分析化学

CiteScore

7.50

自引率

7.70%

发文量

169

审稿时长

3.4 months

期刊介绍： Chemometrics and Intelligent Laboratory Systems publishes original research papers, short communications, reviews, tutorials and Original Software Publications reporting on development of novel statistical, mathematical, or computer techniques in Chemistry and related disciplines. Chemometrics is the chemical discipline that uses mathematical and statistical methods to design or select optimal procedures and experiments, and to provide maximum chemical information by analysing chemical data. The journal deals with the following topics: 1) Development of new statistical, mathematical and chemometrical methods for Chemistry and related fields (Environmental Chemistry, Biochemistry, Toxicology, System Biology, -Omics, etc.) 2) Novel applications of chemometrics to all branches of Chemistry and related fields (typical domains of interest are: process data analysis, experimental design, data mining, signal processing, supervised modelling, decision making, robust statistics, mixture analysis, multivariate calibration etc.) Routine applications of established chemometrical techniques will not be considered. 3) Development of new software that provides novel tools or truly advances the use of chemometrical methods. 4) Well characterized data sets to test performance for the new methods and software. The journal complies with International Committee of Medical Journal Editors'' Uniform requirements for manuscripts.