Relay Identification Analyzing Non-symmetrical Oscillations for Optical Plant
M. Huba1, P. Ťapák2
1 STU in Bratislava, FernUniversität in Hagen
2 Slovak University of Technology in Bratislava
Abstract
The paper deals with approximation of systems with the dominant first order dynamics by the Integrator Plus Dead Time (IPDT) model based on the analysis of the nonsymmetrical oscillations with possible offset arising typically under relay control. The analytical derivation is illustrated by results achieved by identification of optical plant. The results are experimentally verified by PI controller tuned using the identification results. Process parameters in various operating points are analyzed and the robutst controller tuning based on performance portrait analysis is employed.
Full paper
Session
Modelling, Simulation, and Identification of Processes (Lecture)
Reference
Huba, M.; Ťapák, P.: Relay Identification Analyzing Non-symmetrical Oscillations for Optical Plant. Editors: Fikar, M. and Kvasnica, M., In Proceedings of the 18th International Conference on Process Control, Tatranská Lomnica, Slovakia, June 14 – 17, 452–456, 2011.
BibTeX
@inProceedings{pc2011-073, | ||
author | = { | Huba, M. and {\v{T}}ap\'ak, P.}, |
title | = { | Relay Identification Analyzing Non-symmetrical Oscillations for Optical Plant}, |
booktitle | = { | Proceedings of the 18th International Conference on Process Control}, |
year | = { | 2011}, |
pages | = { | 452-456}, |
editor | = { | Fikar, M. and Kvasnica, M.}, |
address | = { | Tatransk\'a Lomnica, Slovakia}, |
publisher | = { | Slovak University of Technology in Bratislava}, |
url | = { | http://www.kirp.chtf.stuba.sk/pc11/data/papers/073.pdf}} |