Hidden Markov Model Combined with Kernel Principal Component Analysis for Nonlinear Multimode Process Fault Detection

Peng Peng, Jiaxin Zhao, Yi Zhang, Heming Zhang
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引用次数: 4

Abstract

Data-driven techniques become increasingly popular in the field of industrial fault detection. Regarding the complex nonlinear industrial process accompanied by multiple operational monitoring modes, conventional multivariate monitoring techniques such as kernel principal component analysis (KPCA) are not suitable. In this paper, a novel hidden Markov model (HMM) combined with kernel principal component analysis is proposed for nonlinear multimode process fault detection. Firstly, the HMM is built from the measurement data of different modes so as to estimate the dynamic mode sequence. Furthermore, a local KPCA model is developed to detect the fault of each mode. The effectiveness of the proposed method is shown through a numerical nonlinear multimode simulation example and Tennessee Eastman (TE) Chemical benchmark process. The comparison results demonstrate that the proposed HMM-KPCA method precedes the conventional KPCA method due to the high fault detection rate (FDR) and low false alarm rate (FAR).
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结合核主成分分析的隐马尔可夫模型非线性多模过程故障检测
数据驱动技术在工业故障检测领域越来越受欢迎。对于具有多种运行监测模式的复杂非线性工业过程,核主成分分析(KPCA)等传统的多变量监测技术并不适用。本文提出了一种结合核主成分分析的隐马尔可夫模型用于非线性多模过程故障检测。首先,利用不同模态的测量数据建立HMM,估计动态模态序列;在此基础上,建立了局部KPCA模型来检测各模式的故障。通过数值非线性多模仿真算例和田纳西伊士曼化工基准过程验证了该方法的有效性。结果表明,该方法具有较高的故障检出率(FDR)和较低的虚警率(FAR),优于传统的KPCA方法。
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