Multi-scale kernels for Nyström based extension schemes

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摘要

Nonlinear dimensionality reduction methods often include the construction of kernels for embedding the high-dimensional data points. Standard methods for extending the embedding coordinates (such as the Nyström method) also rely on spectral decomposition of kernels. It is desirable that these kernels capture most of the data sets’ information using only a few leading modes of the spectrum.In this work we propose multi-scale kernels, which are constructed as combinations of Gaussian kernels, to be used for kernel-based extension schemes. We review the kernels’ spectral properties and show that their first few modes capture more information compared to the standard Gaussian kernel. Their application is demonstrated on a synthetic data-set and also applied to a real-life example that models daily electricity profiles and predicts the average day-ahead behavior.

论文关键词:Kernel methods,Manifold learning,Dimensionality reduction,Function extension

论文评审过程:Received 28 September 2016, Revised 15 January 2017, Accepted 13 February 2017, Available online 9 March 2017, Version of Record 31 October 2017.

论文官网地址:https://doi.org/10.1016/j.amc.2017.02.025