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基于IGA的板形板厚神经网络分散解耦PID控制
引用本文:王莉,王学秀,马云. 基于IGA的板形板厚神经网络分散解耦PID控制[J]. 计算机仿真, 2003, 20(12): 82-85,57
作者姓名:王莉  王学秀  马云
作者单位:1. 北京科技大学,信息工程学院,北京,100083
2. 新疆工业高等专科学校电子信息系,新疆,830091
3. 包头钢铁学院,内蒙古,包头,014010
摘    要:针对板带材轧制是一个复杂的非线性过程,板形控制(AFC)和板厚控制(AGC)又是相互耦合的一个综合系统等特点.该文首先采用神经网络分散解耦方法,对此板形板厚多变量耦合系统进行解耦,而后再应用基于免疫遗传算法的PID控制对解耦后的已近似成为两个独立的SISO系统的广义对象进行控制。从而建立了基于免疫遗传算法的板形板厚神经网络分散解耦PID控制系统。仿真结果证明了此AFC—AGC控制系统具有良好的自适应跟随和抗扰性能,其控制效果优于传统的解耦PID控制。

关 键 词:板形 板厚 分散解耦PID控制 神经网络 IGA 板材轧制
文章编号:1006-9348(2003)12-0082-04

Strip Flatness and Gauge Neural Network Decentralized-decoupling PID Control Based on IGA
WANG Li,WANG Xue-xiu,MA Yun. Strip Flatness and Gauge Neural Network Decentralized-decoupling PID Control Based on IGA[J]. Computer Simulation, 2003, 20(12): 82-85,57
Authors:WANG Li  WANG Xue-xiu  MA Yun
Affiliation:WANG Li~1,WANG Xue-xiu~2,MA Yun~3
Abstract:In the paper, because strip rolling is a very complicated nonlinear process, and characterized by couple between automatic flatness control (AFC) and automatic gauge control(AGC), the authors firstly make this coupling multivariable system decouple using neural network decentralized-decoupling method. Secondly, authors adopt PID controller based on immune genetic algorithm to control the decoupled generalized object which can be approximately equal to two SISO systems. Thus, construct strip flatness and gauge neural network decentralized-decoupling PID control system based on immune genetic algorithm and simulate on it. The simulation results show that this kind of new controller has good performances of adaptively tracking target and resisting disturbances and is superior to the conventional decoupled PID control in terms of improving the strip flatness and gauge accuracy.
Keywords:Decentralized-decoupling  Flatness  Gauge  Immune genetic algorithm(IGA)  Control
本文献已被 CNKI 维普 万方数据 等数据库收录!
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