DocumentCode
2067898
Title
On-line implementation of a neural network model predictive controller
Author
Yu, D.L. ; Williams, D. ; Gomm, J.B.
Author_Institution
Liverpool John Moores Univ., UK
fYear
2000
fDate
2000
Firstpage
42552
Lastpage
42555
Abstract
Applications of neural networks in chemical process modelling and model predictive control (MPC) have been investigated for SISO systems. A multivariable, neural network modelling and MPC technique is investigated in this paper for application to a laboratory-scale chemical reactor. The reactor exhibits characteristics typical of many industrial processes, due to its nonlinearity, coupling effects among the controlled variables (temperature, pH and dissolved oxygen) and a long time-delay in the heat exchanger. Three neural models are developed for the three MISO subsystems of the process used in simulation to initially determine the control parameters and subsequently used online for the MPC of the process. Online control results are presented to illustrate the closed-loop performance of the MPC scheme
Keywords
chemical technology; MISO subsystems; SISO systems; chemical process modelling; closed-loop performance; coupling effects; dissolved oxygen control; heat exchanger delay; laboratory-scale chemical reactor; multivariable neural network modelling; neural network model predictive controller; nonlinearity; online implementation; pH control; temperature control;
fLanguage
English
Publisher
iet
Conference_Titel
Practical Experiences with Predictive Control (Ref. No. 2000/023), IEE Seminar on
Conference_Location
Middlesbrough
Type
conf
DOI
10.1049/ic:20000119
Filename
847009
Link To Document