شبكة التخطيط العمراني بسم الله الرحمن الرحيم
للكاتبين :
A.Y. HAIKAL, M . S .M. KSASY, S. F . SARAYA, F . F . AREED
Computers & Systems Dept., Faculty of Engineering, Mansoura University
ABSTRACT
: A neurocontroller system was applied to the common Tennessee Eastman plant with the help of
genetic algorithm to optimize the neural network parameters. The present algorithm differs from
standard genetic algorithms in that it evolves a population of neurons instead of complete
networks. These neurons are combined through different subpopulations to form hidden layer of
feed-forward networks that are then evaluated on a given problem. The proposed plant is a well
posed problem for analysis and control design of a nonlinear, open-loop unstable chemical
process. The plant consists of five major operations, a reactor, a product condenser, a
vapor/liquid separator, a recycle compressor and a product stripper. The nonlinear dynamics of
the plant are mainly due to the chemical reactions within the reactor. The neurocontroller
developed was found to be robust and presents high performance during set point changes and in
the presence of disturbances