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Effect of Model-Plant Mismatch on Model Predictive Control and Mismatch Threshold Determination

The performance of model predictive control is highly affected by model-plant mismatch. Existing model-plant mismatch detection, isolation and estimation techniques do not take into account the threshold of significant mismatch, preventing clear analysis of the implications of mismatch. This study i...

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Main Author: Chong , Zhi Kai
Format: Final Year Project
Language:English
Published: IRC 2015
Subjects:
TP Chemical technology
Online Access:http://utpedia.utp.edu.my/16467/1/Dissertation_Chong%20Zhi%20Kai_Sept2015.pdf
http://utpedia.utp.edu.my/16467/
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spelling my-utp-utpedia.164672017-01-25T09:34:56Z http://utpedia.utp.edu.my/16467/ Effect of Model-Plant Mismatch on Model Predictive Control and Mismatch Threshold Determination Chong , Zhi Kai TP Chemical technology The performance of model predictive control is highly affected by model-plant mismatch. Existing model-plant mismatch detection, isolation and estimation techniques do not take into account the threshold of significant mismatch, preventing clear analysis of the implications of mismatch. This study investigates the relationship between model-plant mismatch and plant performance in a multiple input multiple output system and determines the thresholds of mismatch. The approach uses a closed loop system with the Wood and Berry distillation model controlled by MPC simulated with varying degrees of parametric mismatch. The threshold values above which the MPC performance is unacceptable are determined from the Integral Error- MPM graph by specifying the base Integral Error. The values for positive mismatches are 27%, 19% 40% and 31% for the four gains, 27%, 40% 40% and 32% for the time constants and 21%, 9%, 6% and 14% for the time delays respectively. The values for negative mismatches are 22%, 22% 38% and 16% for the four gains, 20%, 20% 31% and 20% for the time constants and 40%, 10%, 6% and 11% for the time delays respectively. Time delay mismatch yields the most significant effect on the MPC performance. Gain mismatch causes significant impact on the MPC performance when the mismatch increases the condition number otherwise its impact is lower than the effect of time delay mismatch. The effect of mismatch in time constant becomes significant when the plant time constant increases, otherwise, it is minimal. Simultaneous mismatches in two transfer functions are pronounced when the mismatches affect the same output. IRC 2015-09 Final Year Project NonPeerReviewed application/pdf en http://utpedia.utp.edu.my/16467/1/Dissertation_Chong%20Zhi%20Kai_Sept2015.pdf Chong , Zhi Kai (2015) Effect of Model-Plant Mismatch on Model Predictive Control and Mismatch Threshold Determination. IRC, Universiti Teknologi PETRONAS. (Unpublished)
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Electronic and Digitized Intellectual Asset
url_provider http://utpedia.utp.edu.my/
language English
topic TP Chemical technology
spellingShingle TP Chemical technology
Chong , Zhi Kai
Effect of Model-Plant Mismatch on Model Predictive Control and Mismatch Threshold Determination
description The performance of model predictive control is highly affected by model-plant mismatch. Existing model-plant mismatch detection, isolation and estimation techniques do not take into account the threshold of significant mismatch, preventing clear analysis of the implications of mismatch. This study investigates the relationship between model-plant mismatch and plant performance in a multiple input multiple output system and determines the thresholds of mismatch. The approach uses a closed loop system with the Wood and Berry distillation model controlled by MPC simulated with varying degrees of parametric mismatch. The threshold values above which the MPC performance is unacceptable are determined from the Integral Error- MPM graph by specifying the base Integral Error. The values for positive mismatches are 27%, 19% 40% and 31% for the four gains, 27%, 40% 40% and 32% for the time constants and 21%, 9%, 6% and 14% for the time delays respectively. The values for negative mismatches are 22%, 22% 38% and 16% for the four gains, 20%, 20% 31% and 20% for the time constants and 40%, 10%, 6% and 11% for the time delays respectively. Time delay mismatch yields the most significant effect on the MPC performance. Gain mismatch causes significant impact on the MPC performance when the mismatch increases the condition number otherwise its impact is lower than the effect of time delay mismatch. The effect of mismatch in time constant becomes significant when the plant time constant increases, otherwise, it is minimal. Simultaneous mismatches in two transfer functions are pronounced when the mismatches affect the same output.
format Final Year Project
author Chong , Zhi Kai
author_facet Chong , Zhi Kai
author_sort Chong , Zhi Kai
title Effect of Model-Plant Mismatch on Model Predictive Control and Mismatch Threshold Determination
title_short Effect of Model-Plant Mismatch on Model Predictive Control and Mismatch Threshold Determination
title_full Effect of Model-Plant Mismatch on Model Predictive Control and Mismatch Threshold Determination
title_fullStr Effect of Model-Plant Mismatch on Model Predictive Control and Mismatch Threshold Determination
title_full_unstemmed Effect of Model-Plant Mismatch on Model Predictive Control and Mismatch Threshold Determination
title_sort effect of model-plant mismatch on model predictive control and mismatch threshold determination
publisher IRC
publishDate 2015
url http://utpedia.utp.edu.my/16467/1/Dissertation_Chong%20Zhi%20Kai_Sept2015.pdf
http://utpedia.utp.edu.my/16467/
_version_ 1739832263708770304
score 13.18916

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