Learning the Kernel with Hyperkernels

Cheng Soon Ong; Alexander J. Smola; Robert C. Williamson

2005 JMLR JMLR 2005

Learning the Kernel with Hyperkernels

Abstract

This paper addresses the problem of choosing a kernel suitable for estimation with a support vector machine, hence further automating machine learning. This goal is achieved by defining a reproducing kernel Hilbert space on the space of kernels itself. Such a formulation leads to a statistical estimation problem similar to the problem of minimizing a regularized risk functional. We state the equivalent representer theorem for the choice of kernels and present a semidefinite programming formulation of the resulting optimization problem. Several recipes for constructing hyperkernels are provided, as well as the details of common machine learning problems. Experimental results for classification, regression and novelty detection on UCI data show the feasibility of our approach. [abs] [ pdf ][ bib ] © JMLR 2005. (edit, beta)

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Authors

Cheng Soon Ong , Alexander J. Smola , Robert C. Williamson

Topics

Machine Learning > Core Methods > Classification Machine Learning > Core Methods > Embedding Learning Mathematics & Optimization > Optimization > Continuous Optimization Mathematics & Optimization > Optimization > Optimization Machine Learning > Core Methods > Kernel Methods Machine Learning > Core Methods > Support Vector Machine

Keywords

semidefinite programming reproducing kernel hilbert space kernel selection support vector machine kernel methods

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