Decentralized dynamic monitoring based on multi-block reorganized subspace integrated with Bayesian inference for plant-wide process

Multi-block subspace monitoring technology has been widely used in the field of plant-wide process to solve the problem of high complexity between variables. However, recent multi-block partition approaches neither consider variable distribution nor comprehensively analyze quality-relevant fault. To...

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Bibliographic Details
Published in:Chemometrics and intelligent laboratory systems 2019-10, Vol.193, p.103832, Article 103832
Main Authors: Zhang, Ming-Qing, Jiang, Xue, Xu, Yuan, Luo, Xiong-Lin
Format: Article
Language:English
Subjects:
Jarque-Bera (J-B)
Multi-block reorganized subspace (MBRS)
Mutual information (MI)
Plant-wide process dynamic monitoring
Total dynamic independent component regression (TDICR)
Total dynamic principal component regression (TDPCR)
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Summary:Multi-block subspace monitoring technology has been widely used in the field of plant-wide process to solve the problem of high complexity between variables. However, recent multi-block partition approaches neither consider variable distribution nor comprehensively analyze quality-relevant fault. To solve this problem, a plant-wide process quality monitoring approach based on multi-block reorganized subspace integrated with Bayesian inference (MBRS-BI) is put forward in this paper. Firstly, in view of the distribution characteristics of data, process variables are divided into Gaussian and non-Gaussian subspaces by Jarque-Bera detection method. Subsequently, in the two subspaces, mutual information (MI) is further employed to determine quality-relevant and quality-irrelevant variables so as to obtain quality-relevant and quality-irrelevant sub-blocks. Dynamic principle component analysis (DPCA) and dynamic independent component analysis (DICA) methods are adopted to monitor Gaussian quality-irrelevant and non-Gaussian quality-irrelevant blocks, respectively. For the monitoring of Gaussian quality-relevant and non-Gaussian quality-relevant blocks, we propose total dynamic principle component regression (TDPCR) and total dynamic independent component regression methods (TDICR) methods to focus on analyzing the impact of faults on output quality. Finally, in order to further achieve plant-wide process dynamic monitoring, all corresponding statistical metrics of sub-blocks are reorganized through Bayesian inference (BI). The proposed method (MBRS-BI) is elaborated by the Tennessee-Eastman (TE) process. •A novel dynamic monitoring based on MBRS integrated with Bayesian inference for plant-wide process is present.•Distribution characteristics of variables, the relevance between faults and output quality are considered simultaneously.•Total DPCR (TDPCR) and Total DICR (TDICR) methods are put forward to monitoring quality-relevant variables.•The performance of MBRS-BI approach is validated by the TE process.
ISSN:0169-7439
1873-3239
DOI:10.1016/j.chemolab.2019.103832