Load Frequency Control using ANN-PID Controller

机译：使用Ann-PID控制器负载频率控制

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A control scheme of ANN based proportional-integral-derivative (PID) controller is developed here to maintain the system frequency at nominal value. Due to some complication of modern industrial system, the conventional PID controller is not capable to meet our requirement. Neural networks have great capability in solving complex, nonlinear mathematical problems. This paper introduces the design of neuro-PID controller model to improve the response and performance of conventional PID controller. The weights of neural network connecting links are modified by faster descent mean using the back propagation algorithm. The performance of ANN-PID controller is compared with different existing techniques. The simulation result presented in the paper reveal that the proposed ANN-PID technique rapidly track the reference frequency of system and better result in respect of rise time, settling time, peak time, overshoot etc.

机译：在此开发了基于ANN的比例积分衍生物（PID）控制器的控制方案，以将系统频率保持在标称值。由于现代工业系统的一些复杂性，传统的PID控制器无法满足我们的要求。神经网络在解决复杂的非线性数学问题方面具有很大的能力。本文介绍了神经PID控制器模型的设计，提高了传统PID控制器的响应和性能。通过使用后传播算法的更快的下降均值来修改神经网络连接链路的权重。将Ann-PID控制器的性能与不同现有技术进行比较。本文中提出的仿真结果表明，所提出的Ann-PID技术迅速跟踪系统的参考频率，并更好地导致上升时间，稳定时间，高峰时间，过冲等。

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《IEEE International Conference on Power Electronics, Intelligent Control and Energy Systems》|2016年|2154-2872p|共6页
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K. Kumari; G. Shankar; S. Kumari; S. Gupta;
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中图分类 TN-53;
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Artificial Neural Network; Back Propagation; Load Frequency Control; Power System;

机译：人工神经网络;背部传播;负载频率控制;电力系统;

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Load Frequency Control using ANN-PID Controller

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