自组织多项式神经网络的研究

Proceedings Joint 9th IFSA World Congress and 20th NAFIPS International Conference (Cat. No. 01TH8569) Pub Date : 2001-07-25 DOI:10.1109/NAFIPS.2001.943806

Sung-Kwun Oh, T. Ahn, W. Pedrycz

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引用次数: 10

摘要

我们介绍并研究了一类多项式神经网络(PNNs)的神经结构，讨论了一种综合的设计方法，并进行了一系列数值实验。PNN是一种灵活的神经结构，其拓扑结构是通过学习形成的;它是一个自组织的网络。PNN按照多项式结构分为基于多项式神经元的网络和基于模糊多项式神经元(FPN)的网络两种。基于神经网络的自组织多项式神经网络(SOPNN)设计过程的实质在于数据处理的成组方法。SOPNN的每个节点都表现出高度的灵活性，并在输入和输出变量之间实现多项式类型的映射(线性、二次和三次)。基于fpn的SOPNN融合了模糊规则计算和神经网络的思想。模拟涉及到一系列的合成数据以及各种神经模糊系统使用的实验数据。还包括详细的比较分析。

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A study on the self-organizing polynomial neural networks

We introduce and investigate a class of neural architectures of polynomial neural networks (PNNs), discuss a comprehensive design methodology and carry out a series of numeric experiments. PNN is a flexible neural architecture whose topology is developed through learning; it is a self-organizing network. PNN has two kinds of networks, polynomial neuron-based and fuzzy polynomial neuron (FPN)-based networks, according to a polynomial structure. The essence of the design procedure of PN-based self-organizing polynomial neural networks(SOPNN) dwells on the group method of data handling. Each node of the SOPNN exhibits a high level of flexibility and realizes a polynomial type of mapping (linear, quadratic, and cubic) between input and output variables. FPN-based SOPNN dwells on the ideas of fuzzy rule-based computing and neural networks. Simulations involve a series of synthetic as well as experimental data used across various neuro-fuzzy systems. A detailed comparative analysis is also included.

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Proceedings Joint 9th IFSA World Congress and 20th NAFIPS International Conference (Cat. No. 01TH8569)

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