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Digital
Library of the European Council for Modelling
and Simulation |
Title: |
Linear
Predictive Control Of Nonlinear Time-Delayed Model Of Liquid-Liquid Stirred
Heat Exchanger |
Authors: |
Radek Holis, Vladimir Bobal |
Published in: |
(2016).ECMS 2016 Proceedings edited
by: Thorsen Claus, Frank Herrmann, Michael Manitz, Oliver Rose, European
Council for Modeling and Simulation. doi:10.7148/2016 ISBN:
978-0-9932440-2-5 30th
European Conference on Modelling and Simulation, Regensburg Germany, May 31st
– June 3rd, 2016 |
Citation
format: |
Radek Holis, Vladimir Bobal (2016). Linear
Predictive Control Of Nonlinear Time-Delayed Model Of Liquid-Liquid Stirred
Heat Exchanger, ECMS 2016 Proceedings edited by: Thorsten Claus, Frank
Herrmann, Michael Manitz, Oliver Rose European Council for Modeling
and Simulation. doi:10.7148/2016-0300 |
DOI: |
http://dx.doi.org/10.7148/2016-0300 |
Abstract: |
The design and simulation of an
integrated common mode filter (CMF) for differential data lines, like Many
nonlinear processes in industry exhibit time delay in their dynamic behavior.
Time delay is mainly caused by the time required to transport energy,
information or mass, but it can be caused by processing time as well. There
are also many cases when compensation of measurable disturbance is required.
In case, when the nonlinearity of system is not significant, it can be controlled
by linear control method, but accurate system identification in the operating
area should be performed. Moreover the suitable control algorithm, which is
able to handle these requirements, should be used. In light of these facts,
the goal of this paper is to design predictive algorithm for control of
nonlinear time-delayed systems with the possibility of measurable disturbance
compensation. Basically this paper deals with the essential principles of
model predictive control (MPC), design process of the predictive controller,
calculation of control law and identification of control process. Identification
of control process is also an important part of MPC. This paper describes
simulation and verification of designed regulator which
was verified in MATLAB/SIMULINK as well. |
Full
text: |