标题:FAULT PROGNOSIS TECHNOLOGY FOR NON-GAUSSIAN AND NONLINEAR PROCESSES BASED ON KICA RECONSTRUCTION
作者:Ma, Jie; Li, Gang; Zhou, Donghua
通讯作者:Zhou, Donghua
作者机构:[Ma, Jie] Beijing Informat Sci & Technol Univ, Sch Automat, Beijing 100192, Peoples R China.; [Li, Gang; Zhou, Donghua] Shandong Univ Sci & Technol, 更多
会议名称:10th Chinese National Conference on Fault Detection, Supervision and Safety for Technical Processes (SAFEPROCESS) of Chinese-Association-of-Automation (CAA)
会议日期:AUG 18-19, 2017
来源:CANADIAN JOURNAL OF CHEMICAL ENGINEERING
出版年:2018
卷:96
期:2
页码:515-520
DOI:10.1002/cjce.23051
关键词:nonlinear process; Kernel Independent Component Analysis; fault; reconstruction; fault prognosis
摘要:Fault prediction is desired when a fault is detected for an industrial process, which can greatly enhance the reliability and safety of the overall system. Since independent component analysis (ICA) has been successfully applied to monitor non-Gaussian processes, it is promising to build a data-driven prediction technology based on the ICA framework. This paper considers the fault prediction issue with a kernel independent components analysis (KICA) model to deal with both nonlinear and non-Gaussian features from industrial data. First, the KICA model is used for fault detection and fault reconstruction, so that the magnitude of the fault can be estimated properly. Then, based on the autocorrelation characteristics of the fault magnitude sequence, a multi-layer hierarchical prediction model is used to predict the trend of the fault. Finally, the effectiveness of this framework is verified on the Tennessee Eastman process.
收录类别:CPCI-S;EI;SCIE
WOS核心被引频次:2
资源类型:会议论文;期刊论文
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