摘要
针对具有不确定性的仿射非线性系统,设计了神经网络L2增益控制器,使得控制系统为有限增益L2稳定的.利用Fourier神经网络的函数拟合能力,给出了满足HJI不等式的存储函数的一般结构,并利用遗传算法对神经网络权系数进行优化,设计相应的神经网络L2增益抗干扰控制器,使得闭环系统满足相应的L2性能准则.对于L2输入信号,要求控制系统设计为使得输入-输出映射为有限增益L2稳定的并有尽量小的L2增益参数.针对搅拌式化学反应器控制实例,通过数字仿真,证明此方法能够达到预期的L2性能准则.
A neural network controller with L2-gain was developed for an affine nonlinear system with parameter uncertainty. The controller stabilizes the closed-loop control system with a finite L2-gain. The general structure of the storage function was formulated based on a Fourier neural network system's fitting capacity, which was satisfied by a Hamihonian-Jacobi inequality (HJI). Moreover, by employing the optimization of a genetic algorithm to the weighting of the neural network system, the neural network system with its anti-disturbance system was able to meet the criteria of L2-gain performance. For an L2-gain input signal, the closed-loop control system needs to stabilize finite L2 gain to input-output mapping and have the parameters of L2 gain as small as possible. In a stirred-tank chemical reactor control example, simulation results demonstrated that the proposed method is feasible and can meet the criteria of L2-gain performance.
出处
《哈尔滨工程大学学报》
EI
CAS
CSCD
北大核心
2009年第7期829-833,共5页
Journal of Harbin Engineering University
基金
国家自然科学基金资助项目(60475027)
国家863计划资助项目(2006AA704314)