基于增强学习神经网络控制器的二区无调节电力系统自动控制

2014 First International Conference on Automation, Control, Energy and Systems (ACES) Pub Date : 2014-05-01 DOI:10.1109/ACES.2014.6808004

A. K. Pal, P. Bera, K. Chakraborty

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引用次数: 15

摘要

本文分析了双边合同对传统两区自动发电控制(AGC)系统动态特性的影响。在此基础上，针对两区去调节电力系统的每个区域设计了多层感知器神经网络(MLPNN)控制器，并对其进行了强化学习。采用反向传播方法在线动态调整MLPNN的权值，并与采用模拟退火算法(SA)同时优化积分增益和调速参数的积分控制器进行性能比较，以适应不同负荷情况、发电机组之间的契约参与和配电公司的违约行为。研究表明，MLPNN控制器的性能优于基于SA的积分控制器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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AGC in two-area deregulated power system using reinforced learning neural network controller

In the present work, the effect of bilateral contract have been analyzed on the dynamics of conventional two-area Automatic Generation Control (AGC) system. Then a multilayer perceptron neural network (MLPNN) controller for each area in a two area deregulated power system with reinforced learning is considered for the system. The weights of the MLPNN are dynamically adjusted online using backpropagation method and its performances are compared with the integral controllers whose integral gain and speed regulation parameter are simultaneously optimized using simulated annealing algorithm (SA) for various loading conditions, contract participation among generating units and contract violation by the distribution companies. Investigation reveals that MLPNN controller gives better performances compared to integral controllers obtained using SA.

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2014 First International Conference on Automation, Control, Energy and Systems (ACES)

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