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Small sets of random Fourier features by kernelized Matrix LVQ

2017 12th International Workshop on Self-Organizing Maps and Learning Vector Quantization, Clustering and Data Visualization (WSOM) Pub Date : 2017-06-01 DOI:10.1109/WSOM.2017.8020026
Frank-Michael Schleif
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引用次数: 3

Abstract

Kernel based learning is very popular in machine learning but often quite costly with at least quadratic runtime complexity. Random Fourier features and related techniques have been proposed to provide an explicit kernel expansion such that standard techniques with low runtime and memory complexity can be used. This strategy leads to rather high dimensional datasets which is a drawback in many cases. Here, we combine a recently proposed unsupervised selection strategy for random Fourier features [1] with the very efficient supervised relevance learning given by Matrix LVQ. The suggested technique provides reasonable small but very discriminative features sets.1
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小集合随机傅立叶特征的核化矩阵LVQ
基于内核的学习在机器学习中非常流行,但通常成本很高,运行时复杂度至少为二次。随机傅立叶特征和相关技术已被提出,以提供显式的内核扩展,从而可以使用具有低运行时和内存复杂性的标准技术。这种策略导致了相当高维的数据集,这在许多情况下是一个缺点。在这里,我们将最近提出的随机傅立叶特征的无监督选择策略[1]与矩阵LVQ给出的非常有效的监督相关学习相结合。所建议的技术提供了合理的小但非常有区别的特征集
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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2017 12th International Workshop on Self-Organizing Maps and Learning Vector Quantization, Clustering and Data Visualization (WSOM)
2017 12th International Workshop on Self-Organizing Maps and Learning Vector Quantization, Clustering and Data Visualization (WSOM)
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