基于神经自适应反馈线性化的高阶电力系统控制

Proceedings of the 1999 IEEE International Symposium on Intelligent Control Intelligent Systems and Semiotics (Cat. No.99CH37014) Pub Date : 1900-01-01 DOI:10.1109/ISIC.1999.796626

K. Fregene, D. Kennedy

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引用次数: 6

摘要

针对高阶单机/无限母线电力系统模型，讨论了基于神经网络的自适应反馈线性化励磁控制器/电力系统稳定器的设计。利用神经网络辨识系统的离散非线性动力学模型。虽然控制器本身没有使用神经网络实现，但它自适应地使用神经系统模型给出的参数估计来确定每个离散时间步的适当反馈线性化控制律。这种方法避免了对电厂精确知识的要求，也避免了在复杂电力系统中实施分析输入输出反馈线性化控制器时遇到的其他困难。仿真结果证明了电压跟踪、功率角振荡阻尼和用户指定动态的可能性。

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Control of a high-order power system by neural adaptive feedback linearization

Discusses the design of an adaptive feedback linearizing excitation controller/power system stabilizer using neural networks, for a high order single machine/infinite bus power system model. The neural networks are used to identify a discrete-time nonlinear dynamical model of the system. Although the controller itself is not implemented using a neural network, it adaptively uses the parameter estimates given by the neural system model to determine an appropriate feedback linearizing control law at each discrete time step. This approach avoids the requirement for exact knowledge of the plant and other difficulties associated with implementing analytical input-output feedback linearizing controllers for complex power systems. Simulation results demonstrate voltage tracking, damping of power angle oscillations and the possibility of user-specified dynamics.

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Proceedings of the 1999 IEEE International Symposium on Intelligent Control Intelligent Systems and Semiotics (Cat. No.99CH37014)

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