摘要
基于核熵主成分分析方法的统计模型仅利用正常工况下数据进行建模,而忽略了监控系统数据库中一些已知类别的先前故障数据。为了利用先前故障数据中包含的故障信息来增强故障检测性能,提出了一种故障判别增强KECA (fault discriminant enhanced kernel entropy component analysis, FDKECA)算法。该法通过采用无监督学习和监督学习方法建立模型,同时监测非线性核熵主成分(kernel entropy component, KEC)和故障判别成分(fault discriminant component, FDC)两类数据特征。此外,利用贝叶斯推理将相应的监视统计信息转换为故障概率,并通过加权两个子模型的结果来构建基于总体概率的监视统计量。通过数值仿真和田纳西伊斯曼(Tennessee Eastman, TE)过程仿真实验,证明和传统KECA相比,FDKECA算法能够有效利用故障数据提高故障检测率。
The statistical model based on the kernel entropy principal component analysis method only uses the data under normal operating conditions for modeling, and ignores some known categories of previous failure data in the monitoring system database. This paper proposed a fault discriminant enhanced the kernel entropy component analysis algorithm by using fault information contained in the previous fault data to enhance the fault detection performance. The model adopted unsupervised learning and supervised learning methods to monitor two types of data features: nonlinear kernel entropy component and fault discriminant component. In addition, the proposed algorithm employed Bayesian inference to convert the corresponding monitoring statistics into failure probability.The weighted probability of the two sub-models generated the monitoring statistics of the overall probability.Through numerical simulation and Tennessee Eastman process simulation experiments, the FDKECA algorithm is more effective than the traditional KECA since the improvement of the fault detection rate.
作者
韩宇
李俊芳
高强
田宇
禹国刚
HAN Yu;LI Junfang;GAO Qiang;TIAN Yu;YU Guogang(School of Electrical and Electronic Engineering,Tianjin University of Technology,Tianjin 300384,China;Tianjin Key Laboratory for Control Theory&Applications in Complicated Systems,Tianjin 300384,China;Tianjin University of Technology Engineering Training Center,Tianjin 300384,China)
出处
《化工学报》
EI
CAS
CSCD
北大核心
2020年第3期1254-1263,共10页
CIESC Journal
基金
国家自然科学基金项目(61502340)
天津市自然科学基金项目(18JCQNJC01000)
天津市高等学校创新团队培养计划资助项目(TD12-5015)。
关键词
过程控制
过程系统
故障检测
核熵成分分析
混合模型
process control
process systems
fault detection
kernel entropy component analysis
mixing model
