Title :
Decoupling control based on PID neural network for deaerator and condenser water level control system
Author :
Peng, Wang ; Hao, Meng ; Peng, Dong ; Ri-hui, Dai
Author_Institution :
College of Automation, Harbin Engineering University, Harbin 150001, China
Abstract :
There is strong intercoupling relation between condenser water level and deaerator water level in marine steam power plant. In order to get satisfactory control effect, it is essential to take corresponding decoupling measures. PID neural network not only has the advantages of PID, but also has the abilities of learning, remembering and nonlinear approximation. In this paper, we propose a deaerator water level and condenser water level decoupling control strategy based on PID neural network, which integrates PID and neural network by establishing proportional neuron, integral neuron and derivative neuron corresponding to proportional, integral and derivative, respectively. We also propose a method of choosing initial weights and learning coefficient from experience of PID to enhance the convergence performance of PID neural network. The simulation results show that the PID neural network decoupling control strategy can meet the requirements of multivariable system decoupling control. It is more effective in condenser water level and deaerator water level decoupling than PID control strategy.
Keywords :
Artificial neural networks; Biological neural networks; Chemicals; Feeds; Mathematical model; Neurons; Valves; BP neural network; condenser water level; deaerator water level; multivariable system decouple; steam power;
Conference_Titel :
Control Conference (CCC), 2015 34th Chinese
Conference_Location :
Hangzhou, China
DOI :
10.1109/ChiCC.2015.7260169