A New Feedback DE-ELM with Time Delay-Based EFSM Approach for Fault Prediction of Non-Linear Processes

Yuan Xu; Zi Qian Zhou; Qun Xiong Zhu

doi:10.1002/cjce.22246

A New Feedback DE-ELM with Time Delay-Based EFSM Approach for Fault Prediction of Non-Linear Processes

Yuan Xu
, Zi Qian Zhou
, Qun Xiong Zhu

Beijing University of Chemical Technology

研究成果: Article › 同行評審

7 引文斯高帕斯（Scopus）

摘要

Fault prediction is a significant issue for ensuring industrial process safety and reliability. In practical processes, due to complexity and non-linearity, this leads to many difficulties for process fault prediction. Aiming to improve the fault prediction accuracy in procedure-oriented systems, a new feedback differential evolution-optimized extreme learning machine (FDE-ELM) with a time delay-based extended finite state machine (TD-EFSM) approach is proposed. The proposed method is exemplified in the complicated Tennessee Eastman (TE) benchmark process. The results show that the new joint time-delay EFSM-based FDE-ELM shows superiority not only in modelling stability but also in detection sensitivity.

原文	English
頁（從 - 到）	1603-1612
頁數	10
期刊	Canadian Journal of Chemical Engineering
卷	93
發行號	9
DOIs	https://doi.org/10.1002/cjce.22246
出版狀態	Published - 1 9月 2015
對外發佈	是

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title = "A New Feedback DE-ELM with Time Delay-Based EFSM Approach for Fault Prediction of Non-Linear Processes",

abstract = "Fault prediction is a significant issue for ensuring industrial process safety and reliability. In practical processes, due to complexity and non-linearity, this leads to many difficulties for process fault prediction. Aiming to improve the fault prediction accuracy in procedure-oriented systems, a new feedback differential evolution-optimized extreme learning machine (FDE-ELM) with a time delay-based extended finite state machine (TD-EFSM) approach is proposed. The proposed method is exemplified in the complicated Tennessee Eastman (TE) benchmark process. The results show that the new joint time-delay EFSM-based FDE-ELM shows superiority not only in modelling stability but also in detection sensitivity.",

keywords = "DE-ELM, EFSM, Fault prediction, TDMI, TE process",

author = "Yuan Xu and Zhou, \{Zi Qian\} and Zhu, \{Qun Xiong\}",

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AU - Zhou, Zi Qian

AU - Zhu, Qun Xiong

PY - 2015/9/1

Y1 - 2015/9/1

N2 - Fault prediction is a significant issue for ensuring industrial process safety and reliability. In practical processes, due to complexity and non-linearity, this leads to many difficulties for process fault prediction. Aiming to improve the fault prediction accuracy in procedure-oriented systems, a new feedback differential evolution-optimized extreme learning machine (FDE-ELM) with a time delay-based extended finite state machine (TD-EFSM) approach is proposed. The proposed method is exemplified in the complicated Tennessee Eastman (TE) benchmark process. The results show that the new joint time-delay EFSM-based FDE-ELM shows superiority not only in modelling stability but also in detection sensitivity.

AB - Fault prediction is a significant issue for ensuring industrial process safety and reliability. In practical processes, due to complexity and non-linearity, this leads to many difficulties for process fault prediction. Aiming to improve the fault prediction accuracy in procedure-oriented systems, a new feedback differential evolution-optimized extreme learning machine (FDE-ELM) with a time delay-based extended finite state machine (TD-EFSM) approach is proposed. The proposed method is exemplified in the complicated Tennessee Eastman (TE) benchmark process. The results show that the new joint time-delay EFSM-based FDE-ELM shows superiority not only in modelling stability but also in detection sensitivity.

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KW - EFSM

KW - Fault prediction

KW - TDMI

KW - TE process

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JO - Canadian Journal of Chemical Engineering

JF - Canadian Journal of Chemical Engineering

IS - 9

ER -

A New Feedback DE-ELM with Time Delay-Based EFSM Approach for Fault Prediction of Non-Linear Processes

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