Analysis of circuits containing nonlinear elements using neural networks and genetic algorithm

Proceedings of the Seventeenth National Radio Science Conference. 17th NRSC'2000 (IEEE Cat. No.00EX396) Pub Date : 2000-02-22 DOI:10.1109/NRSC.2000.838927

M. Yakout, A. AbdelFattah, A.S. Elbazz

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引用次数: 4

Abstract

The use of a neural network model to analyze electronic circuits is a promising new technique in the field of circuit analysis. This new technique allows the electronic circuits to be analyzed without the need to solve the physical equations describing the circuit. This paper introduces a novel technique to solve electronic circuits that contain linear and non-linear elements. The non-linear elements are chosen to be PN junction diodes in the forward bias condition at different operating temperatures. The technique is based on the neural network and the genetic algorithm. The neural network is used to model the PN junction diode with the help of the genetic algorithm as a learning tool. Then, the genetic algorithm is used to search the solution space domain to find the proper solutions of the electronic circuits. The proposed technique is faster due to the use of parallel operation from the both neural networks and the genetic algorithm. Moreover, the results are very accurate.

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用神经网络和遗传算法分析含有非线性元件的电路

利用神经网络模型分析电子电路是电路分析领域中一项很有前途的新技术。这项新技术允许在不需要求解描述电路的物理方程的情况下分析电子电路。本文介绍了一种求解包含线性和非线性元件的电子电路的新技术。选择非线性元件作为PN结二极管，在不同的工作温度下处于正偏置状态。该技术基于神经网络和遗传算法。利用遗传算法作为学习工具，利用神经网络对PN结二极管进行建模。然后，利用遗传算法对解空间域进行搜索，找到电路的合适解。由于采用了神经网络和遗传算法的并行运算，该方法的速度更快。而且，结果非常准确。

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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Proceedings of the Seventeenth National Radio Science Conference. 17th NRSC'2000 (IEEE Cat. No.00EX396)

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