Start-up monitoring for intermittent manufacturing based on hierarchical stationarity analysis
Intermittent manufacturing is becoming increasingly popular due to its capability of coping with dynamic changes in market demands. The operation of the intermittent manufacturing equipment is subject to frequent restarts as the type of product being produced is switched, and it is challenging to ac...
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sg-ntu-dr.10356-1630572022-11-18T02:17:46Z Start-up monitoring for intermittent manufacturing based on hierarchical stationarity analysis Qin, Yan Yin, Xunyuan School of Chemical and Biomedical Engineering School of Electrical and Electronic Engineering Engineering::Chemical engineering Process Modeling and Monitoring Stationarity Analysis Intermittent manufacturing is becoming increasingly popular due to its capability of coping with dynamic changes in market demands. The operation of the intermittent manufacturing equipment is subject to frequent restarts as the type of product being produced is switched, and it is challenging to achieve consistency in production during the start-up phase when restarts take place. Timely identification and monitoring of this phase is critical for avoiding the waste of materials and improving the product quality for intermittent manufacturing. In this work, a hierarchical stationarity analysis is proposed for the monitoring of the start-up phase process operation of intermittent manufacturing to extract two types of stationary information. First, consistently invariant process variations among batches are separated using a Kullback-Leibler divergence-based feature extraction method. In this way, process variations in each batch are divided into two subspaces – the stationary subspace and the remaining non-stationary subspace. Cointegration analysis is performed on the non-stationary subspace to capture the stationary information to find the long-term equilibrium during the start-up phase. Based on the divided subspaces, the start-up phase is identified, and process abnormalities can be online monitored. The efficacy of the proposed method is illustrated through a plastic molding process. Ministry of Education (MOE) Nanyang Technological University Submitted/Accepted version This research is supported by Ministry of Education, Singapore, under its Academic Research Fund Tier 1 (RS15/ 21), and Nanyang Technological University, Singapore (Start-Up Grant). 2022-11-18T02:17:46Z 2022-11-18T02:17:46Z 2022 Journal Article Qin, Y. & Yin, X. (2022). Start-up monitoring for intermittent manufacturing based on hierarchical stationarity analysis. Chemical Engineering Research and Design, 185, 26-36. https://dx.doi.org/10.1016/j.cherd.2022.06.037 0263-8762 https://hdl.handle.net/10356/163057 10.1016/j.cherd.2022.06.037 2-s2.0-85133584305 185 26 36 en RS15/ 21 NTU-SUG Chemical Engineering Research and Design © 2022 Institution of Chemical Engineers. All rights reserved. This paper was published by Elsevier Ltd. in Chemical Engineering Research and Design and is made available with permission of Institution of Chemical Engineers. application/pdf |
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Engineering::Chemical engineering Process Modeling and Monitoring Stationarity Analysis Qin, Yan Yin, Xunyuan Start-up monitoring for intermittent manufacturing based on hierarchical stationarity analysis |
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Intermittent manufacturing is becoming increasingly popular due to its capability of coping with dynamic changes in market demands. The operation of the intermittent manufacturing equipment is subject to frequent restarts as the type of product being produced is switched, and it is challenging to achieve consistency in production during the start-up phase when restarts take place. Timely identification and monitoring of this phase is critical for avoiding the waste of materials and improving the product quality for intermittent manufacturing. In this work, a hierarchical stationarity analysis is proposed for the monitoring of the start-up phase process operation of intermittent manufacturing to extract two types of stationary information. First, consistently invariant process variations among batches are separated using a Kullback-Leibler divergence-based feature extraction method. In this way, process variations in each batch are divided into two subspaces – the stationary subspace and the remaining non-stationary subspace. Cointegration analysis is performed on the non-stationary subspace to capture the stationary information to find the long-term equilibrium during the start-up phase. Based on the divided subspaces, the start-up phase is identified, and process abnormalities can be online monitored. The efficacy of the proposed method is illustrated through a plastic molding process. |
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School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Qin, Yan Yin, Xunyuan |
| format |
Article |
| author |
Qin, Yan Yin, Xunyuan |
| author_sort |
Qin, Yan |
| title |
Start-up monitoring for intermittent manufacturing based on hierarchical stationarity analysis |
| title_short |
Start-up monitoring for intermittent manufacturing based on hierarchical stationarity analysis |
| title_full |
Start-up monitoring for intermittent manufacturing based on hierarchical stationarity analysis |
| title_fullStr |
Start-up monitoring for intermittent manufacturing based on hierarchical stationarity analysis |
| title_full_unstemmed |
Start-up monitoring for intermittent manufacturing based on hierarchical stationarity analysis |
| title_sort |
start-up monitoring for intermittent manufacturing based on hierarchical stationarity analysis |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163057 |
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