Characteristics of Networks Generated by Kernel Growing Neural Gas

International journal of artificial intelligence & applications Pub Date : 2023-09-28 DOI:10.5121/ijaia.2023.14503

Kazuhisa Fujita

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Abstract

This research aims to develop kernel GNG, a kernelized version of the growing neural gas (GNG) algorithm, and to investigate the features of the networks generated by the kernel GNG. The GNG is an unsupervised artificial neural network that can transform a dataset into an undirected graph, thereby extracting the features of the dataset as a graph. The GNG is widely used in vector quantization, clustering, and 3D graphics. Kernel methods are often used to map a dataset to feature space, with support vector machines being the most prominent application. This paper introduces the kernel GNG approach and explores the characteristics of the networks generated by kernel GNG. Five kernels, including Gaussian, Laplacian, Cauchy, inverse multiquadric, and log kernels, are used in this study. The results of this study show that the average degree and the average clustering coefficient decrease as the kernel parameter increases for Gaussian, Laplacian, Cauchy, and IMQ kernels. If we avoid more edges and a higher clustering coefficient (or more triangles), the kernel GNG with a larger value of the parameter will be more appropriate.

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核生长神经气体生成网络的特性

本研究旨在开发生长神经气体(GNG)算法的kernel版本GNG，并研究kernel GNG生成的网络的特征。GNG是一种无监督人工神经网络，它可以将数据集转换为无向图，从而将数据集的特征提取为图。GNG被广泛应用于矢量量化、聚类和三维图形。核方法通常用于将数据集映射到特征空间，其中支持向量机是最突出的应用。本文介绍了核GNG方法，探讨了核GNG生成的网络的特点。本文采用了高斯核、拉普拉斯核、柯西核、逆二次核和对数核等五种核函数。研究结果表明，高斯核、拉普拉斯核、柯西核和IMQ核的平均度和平均聚类系数随着核参数的增大而减小。如果我们避免更多的边和更高的聚类系数(或更多的三角形)，则参数值较大的内核GNG将更合适。

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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International journal of artificial intelligence & applications

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