具有特殊性质的全连通神经模糊推理系统的混合基数系统

2015 International Conference on Informative and Cybernetics for Computational Social Systems (ICCSS) Pub Date : 2015-10-01 DOI:10.1109/ICCSS.2015.7281158

J. Wang, C. L. P. Chen, Chao-Tian Chen, Yong-Quan Yu

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引用次数: 0

摘要

在将模糊推理系统转化为全连通神经网络F-CONFIS的基础上，导出了全连通神经模糊推理系统中的混合基系统。模糊系统与神经网络之间的功能等价已被证明，但它们是非建设性的。F-CONFIS为在神经模糊系统和神经网络之间建立等价性提供了建设性的步骤。F-CONFIS与传统神经网络的区别在于它具有特殊的性质，可以看作是一种多层神经网络的变体。为了使F-CONFIS的训练算法能够正确地进行，找到混合基系统和这种新型模糊神经网络的性质是很重要的。仿真结果表明，该方法具有良好的性能。

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Mixed radix systems of fully connected neuro-fuzzy inference systems with special properties

In this paper, based on the transformation from the fuzzy inference system into a fully connected neural network, F-CONFIS, the mixed radix systems in Fully Connected Neural Fuzzy Inference Systems are derived. The functional equivalence between a fuzzy system and a neural network has been proved, however, they are non-constructive. F-CONFIS provides constructive steps to build the equivalence between a neuro-fuzzy system and a NN. F-CONFIS differs from traditional neural networks by its special properties and can be considered as the variation of a kind of multilayer neural network. It is important to find the mixed radix systems and the properties of this new type of fuzzy neural networks properties so that the training algorithm can be properly carried out for the F-CONFIS. The simulation results indicate that the proposed approach achieves excellent performance.

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2015 International Conference on Informative and Cybernetics for Computational Social Systems (ICCSS)

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