Title :
HMM-Driven Robust Probabilistic Principal Component Analyzer for Dynamic Process Fault Classification
Author :
Jinlin Zhu ; Zhiqiang Ge ; Zhihuan Song
Author_Institution :
Dept. of Control Sci. & Eng., Zhejiang Univ., Hangzhou, China
Abstract :
In this paper, a novel hidden Markov model (HMM)-driven robust latent variable model (LVM) is proposed for fault classification in dynamic industrial processes. A robust probabilistic model with Student´s t mixture output is designed for tolerating outliers. Based on the robust LVM, the probabilistic structure is further developed into a classifier form so as to incorporate various types of process information during model acquisition. After that, the robust probabilistic classifier is extended within the HMM framework so as to characterize the time-domain stochastic uncertainties. The model parameters are derived through the expectation-maximization algorithm. For performance validation, the developed model is tested on the Tennessee Eastman benchmark process.
Keywords :
chemical engineering; expectation-maximisation algorithm; fault diagnosis; hidden Markov models; principal component analysis; probability; statistical testing; HMM-driven robust latent variable model; HMM-driven robust probabilistic principal component analyzer; Student t-mixture output; Tennessee Eastman benchmark process; dynamic industrial processes; dynamic process fault classification; expectation-maximization algorithm; hidden Markov model; model acquisition; model parameters; outlier tolerance; performance validation; probabilistic structure; process information; robust LVM; robust probabilistic classifier; robust probabilistic model; time-domain stochastic uncertainties; Bayes methods; Computational modeling; Data models; Hidden Markov models; Monitoring; Probabilistic logic; Robustness; Expectation maximization; Expectation???maximization (EM); Hidden Markov model; Mixture model; Outliers; Robust probabilistic principal component analyzers; Robust sequential data modeling; hidden Markov model (HMM); mixture model; outliers; robust probabilistic principal component analyzers; robust sequential data modeling;
Journal_Title :
Industrial Electronics, IEEE Transactions on
DOI :
10.1109/TIE.2015.2396877
