基于高效核偏最小二乘的质量相关故障检测

孔祥玉; 周红平; 罗家宇; 安秋生; 陈雅琳

引用本文:	孔祥玉,周红平,罗家宇,安秋生,陈雅琳.基于高效核偏最小二乘的质量相关故障检测[J].控制理论与应用,2023,40(4):683~692.[点击复制]
	KONG Xiang-yu,ZHOU Hong-ping,LUO Jia-yu,AN Qiu-sheng,CHEN Ya-lin.Quality-related fault detection based on efficient kernel PLS[J].Control Theory and Technology,2023,40(4):683~692.[点击复制]

基于高效核偏最小二乘的质量相关故障检测

Quality-related fault detection based on efficient kernel PLS

摘要点击 1298 全文点击 372 投稿时间：2021-11-23 修订日期：2023-04-20

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DOI编号 10.7641/CTA.2022.11145

2023,40(4):683-692

中文关键词故障检测正交信号修正质量相关核偏最小二乘非线性过程监测误报率

英文关键词 fault detection orthogonal signal correction quality-related kernel partial least squares nonlinear process monitoring false alarm rate

基金项目国家自然科学基金项目(61673387, 61833016), 陕西省自然科学基金项目(2020JM–356)

作者	单位	E-mail
孔祥玉	火箭军工程大学导弹工程学院	xiangyukong01@163.com
周红平^*	火箭军工程大学导弹工程学院	2227922558@qq.com
罗家宇	火箭军工程大学导弹工程学院	540629964@qq.com
安秋生	山西师范大学数学与计算机科学学院	aaqqss@sina.com
陈雅琳	火箭军工程大学导弹工程学院	cyl2318959445@163.com

中文摘要

核偏最小二乘(KPLS)是一种多元统计方法, 广泛应用于过程监控, 然而, KPLS采用斜交分解, 导致质量相关空间存在冗余信息易引发误报警. 因此, 本文提出了高效核偏最小二乘(EKPLS)模型, 所提方法通过奇异值分解(SVD)将核矩阵正交分解为质量相关空间和质量无关空间, 有效降低质量相关空间中的冗余信息, 并采用主成分分析(PCA)按方差大小将质量相关空间分解为质量主空间和质量次空间. 此外, 为进一步降低由质量无关故障引发的误报警, 提出基于质量估计的正交信号修正(OSC)预处理方法, 并结合EKPLS模型提出了OSC-EKPLS算法. OSCEKPLS通过质量估计值对被测数据进行OSC预处理, 降低了计算复杂度和误报率. 最后, 通过数值仿真和田纳西–伊斯曼过程验证了OSC-EKPLS具有良好的故障检测性和更低的误报率.

英文摘要

Kernel partial least squares (KPLS) is a multivariate statistical method that is widely used in process monitoring. However, the KPLS adopts oblique decomposition, which leads to the existence of redundant information in the quality-related space and results in false alarms. Therefore, this paper proposes an efficient kernel partial least squares (EKPLS) model. The proposed method orthogonally decomposes the kernel matrix into quality-related space and quality-unrelated space through the singular value decomposition (SVD), which effectively reduces the redundancy information in the quality-related space. Then, the principal component analysis (PCA) is used to decompose the quality-related space into quality primary space and quality secondary space according to the variance. In addition, to further reduce the false alarms caused by quality-unrelated faults, an orthogonal signal correction (OSC) preprocessing method based on the quality estimation is proposed, and an OSC-EKPLS algorithm, combined with the EKPLS model, is proposed. The OSC-EKPLS performs OSC preprocessing on the measured data through the quality estimation value, which reduces the computational complexity and the false alarm rate. Finally, it is verified that the OSC-EKPLS has good fault detection and lower false alarm rate by numerical simulation and Tennessee-Eastman process.