Title :
Fuzzy logic supervised ANN feedforward control for a batch polymerization reactor
Author :
Ni, Huafang ; Debelak, Kenneth ; Hunkeler, David
Author_Institution :
Dept. of Chem. Eng., Vanderbilt Univ., Nashville, TN, USA
Abstract :
A polymerization process is a time-varying process. In this paper, the temperature control of a highly exothermic batch polymerization reactor is studied. A fuzzy logic model supervised artificial neural network feedforward PI feedback control (FL-ANN/PI) strategy is developed, in which the FL-ANN feedforward output is applied to compensate for the effect of the major disturbance, heat of reaction. The ANN part consists of two neural networks, a fully recurrent network, which is used to estimate the effect of the heat of reaction on the reaction temperature, and an inverse backpropagation network, which calculates the feedforward signal. The fuzzy logic model supervises the final feedforward output to enhance the reliability of the ANN feedforward control
Keywords :
backpropagation; batch processing (industrial); chemical technology; compensation; feedback; feedforward neural nets; fuzzy control; fuzzy neural nets; polymerisation; recurrent neural nets; temperature control; time-varying systems; two-term control; FL-ANN/PI; artificial neural network feedforward PI feedback control; feedforward output; final feedforward output; fully recurrent network; fuzzy logic supervised ANN feedforward control; heat of reaction; highly exothermic batch polymerization reactor; inverse backpropagation network; temperature control; time-varying process; Artificial neural networks; Backpropagation; Feedback control; Feedforward neural networks; Fuzzy logic; Inductors; Neural networks; Polymers; Recurrent neural networks; Temperature control;
Conference_Titel :
American Control Conference, Proceedings of the 1995
Conference_Location :
Seattle, WA
Print_ISBN :
0-7803-2445-5
DOI :
10.1109/ACC.1995.531190
