Extended Kernel Self-Organizing Map Clustering Algorithm

2009 Fifth International Conference on Natural Computation Pub Date : 2009-08-14 DOI:10.1109/ICNC.2009.682

Ning Chen, Hongyi Zhang

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引用次数: 6

Abstract

The self-Organizing Map allows to visualize the underlying structure of high dimensional data. However, the original relies on the use of Euclidean distances which often becomes a serious drawback for number of real problems. Donald and others map the data in input space into a high 2-dimension feature space, here SOM algorithm are performed. However, its disadvantage lies in lack of direct descriptions about the clustering’s center and result .In this paper, we extend of SOM, a novel kernel SOM algorithm is proposed from energy function. The idea of kernel Self-Organizing Map is applied to kernel trick. The inner product of the mapping value of the original data in feature space is replaced by a kernel function, the winner neuron and weights of each neuron can be initialized and updated by kernel Euclidean norm in the feature space. This trick resolve the non-liners can’t clustering in the input space and can’t direct descriptions about the clustering’s center and result. In this paper, some data are applied to test KSOM and SOM algorithm,The result of the experiments show KSOM algorithm has better performance than SOM.

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扩展核自组织映射聚类算法

自组织映射允许可视化高维数据的底层结构。然而，最初的方法依赖于欧几里得距离的使用，这在许多实际问题中经常成为一个严重的缺点。Donald等人将输入空间中的数据映射到高维特征空间中，在此执行SOM算法。然而，它的缺点是缺乏对聚类中心和结果的直接描述。本文对SOM进行了扩展，提出了一种新的从能量函数出发的核SOM算法。将内核自组织映射的思想应用于内核技巧。将原始数据在特征空间中的映射值的内积替换为核函数，利用核欧氏范数在特征空间中初始化和更新获胜神经元和每个神经元的权值。这个技巧解决了非线性神经网络不能在输入空间中聚类，不能直接描述聚类的中心和结果的问题。本文用一些数据对KSOM和SOM算法进行了测试，实验结果表明KSOM算法比SOM算法具有更好的性能。

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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来源期刊

2009 Fifth International Conference on Natural Computation

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