Research on fault detection and identification methods of nonlinear dynamic process based on ICA

IF 2.4 Q2 ENGINEERING, MECHANICAL
Chao Xie, Rui Zhang, J. Bhola
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引用次数: 1

Abstract

Abstract In the present study, nonlinear dynamic process data are mapped into the kernel state space by kernel gauge variable analysis method to obtain decorrelated state data. The time-lapse covariance matrix of the state data is weighted and summed to obtain the time-lapse structure matrix of the state data, and then supervised kernel independent component analysis (SKICA) is established, the independent component feature data is extracted from the status data and the monitoring statistics are constructed to detect the process faults. The data show that kernel independent component analysis (ICA) method (KICA) method can detect slow fault faster than the ICA method, except that the statistical detection ability of F3 and FS is reduced, and the KICA method can significantly improve the detection performance of other faults and statistics. By analyzing the detection results of SKICA method, it is obvious that in the detection process of all five kinds of slow faults, the fault detection capability of SKICA is better than that of ICA and KICA. The results of continuous stirred reactor simulation system show that, compared with the basic linear process, the slow fault detection has a good monitoring performance, it can detect the small deviation in the process sensitively and give alarm information to the slow fault in time, to improve the fault detection rate.
基于ICA的非线性动态过程故障检测与识别方法研究
摘要本文采用核规范变量分析方法,将非线性动态过程数据映射到核状态空间中,得到解相关状态数据。对状态数据的时移协方差矩阵进行加权求和,得到状态数据的时移结构矩阵,然后建立监督核独立分量分析(SKICA),从状态数据中提取独立分量特征数据,构造监控统计量,检测过程故障。数据表明,除了降低了F3和FS的统计检测能力外,核独立分量分析方法(KICA)方法可以比ICA方法更快地检测到慢故障,KICA方法可以显著提高其他故障和统计的检测性能。通过对SKICA方法检测结果的分析,可以明显看出,在对5种慢速故障的检测过程中,SKICA方法的故障检测能力都优于ICA和KICA方法。连续搅拌反应器仿真系统的实验结果表明,与基本的线性过程相比,慢速故障检测具有良好的监测性能,能够灵敏地检测到过程中的微小偏差,并及时对慢速故障给出报警信息,提高了故障检出率。
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
CiteScore
6.20
自引率
3.60%
发文量
49
审稿时长
44 weeks
期刊介绍: The Journal of Nonlinear Engineering aims to be a platform for sharing original research results in theoretical, experimental, practical, and applied nonlinear phenomena within engineering. It serves as a forum to exchange ideas and applications of nonlinear problems across various engineering disciplines. Articles are considered for publication if they explore nonlinearities in engineering systems, offering realistic mathematical modeling, utilizing nonlinearity for new designs, stabilizing systems, understanding system behavior through nonlinearity, optimizing systems based on nonlinear interactions, and developing algorithms to harness and leverage nonlinear elements.
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