Open Access
2014 Automatic Gauge Control in Rolling Process Based on Multiple Smith Predictor Models
Jiangyun Li, Kang Wang, Yang Li
Abstr. Appl. Anal. 2014: 1-10 (2014). DOI: 10.1155/2014/872418

Abstract

Automatic rolling process is a high-speed system which always requires high-speed control and communication capabilities. Meanwhile, it is also a typical complex electromechanical system; distributed control has become the mainstream of computer control system for rolling mill. Generally, the control system adopts the 2-level control structure—basic automation (Level 1) and process control (Level 2)—to achieve the automatic gauge control. In Level 1, there is always a certain distance between the roll gap of each stand and the thickness testing point, leading to the time delay of gauge control. Smith predictor is a method to cope with time-delay system, but the practical feedback control based on traditional Smith predictor cannot get the ideal control result, because the time delay is hard to be measured precisely and in some situations it may vary in a certain range. In this paper, based on adaptive Smith predictor, we employ multiple models to cover the uncertainties of time delay. The optimal model will be selected by the proposed switch mechanism. Simulations show that the proposed multiple Smith model method exhibits excellent performance in improving the control result even for system with jumping time delay.

Citation

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Jiangyun Li. Kang Wang. Yang Li. "Automatic Gauge Control in Rolling Process Based on Multiple Smith Predictor Models." Abstr. Appl. Anal. 2014 1 - 10, 2014. https://doi.org/10.1155/2014/872418

Information

Published: 2014
First available in Project Euclid: 27 February 2015

zbMATH: 07023235
Digital Object Identifier: 10.1155/2014/872418

Rights: Copyright © 2014 Hindawi

Vol.2014 • 2014
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