Semigroup kernels on measures

Marco Cuturi; Kenji Fukumizu; Jean Philippe Vert

Semigroup kernels on measures

Marco Cuturi
, Kenji Fukumizu
, Jean Philippe Vert

Mines ParisTech
Institute of Statistical Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

We present a family of positive definite kernels on measures, characterized by the fact that the value of the kernel between two measures is a function of their sum. These kernels can be used to derive kernels on structured objects, such as images and texts, by representing these objects as sets of components, such as pixels or words, or more generally as measures on the space of components. Several kernels studied in this work make use of common quantities defined on measures such as entropy or generalized variance to detect similarities. Given an a priori kernel on the space of components itself, the approach is further extended by restating the previous results in a more efficient and flexible framework using the "kernel trick". Finally, a constructive approach to such positive definite kernels through an integral representation theorem is proved, before presenting experimental results on a benchmark experiment of handwritten digits classification to illustrate the validity of the approach.

Original language	English
Journal	Journal of Machine Learning Research
Volume	6
Publication status	Published - 16 Aug 2005
Externally published	Yes

Keywords

Generalized variance
Jensen divergence
Kernels on measures
Reproducing kernel Hilbert space
Semigroup theory

Cite this

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title = "Semigroup kernels on measures",

abstract = "We present a family of positive definite kernels on measures, characterized by the fact that the value of the kernel between two measures is a function of their sum. These kernels can be used to derive kernels on structured objects, such as images and texts, by representing these objects as sets of components, such as pixels or words, or more generally as measures on the space of components. Several kernels studied in this work make use of common quantities defined on measures such as entropy or generalized variance to detect similarities. Given an a priori kernel on the space of components itself, the approach is further extended by restating the previous results in a more efficient and flexible framework using the {"}kernel trick{"}. Finally, a constructive approach to such positive definite kernels through an integral representation theorem is proved, before presenting experimental results on a benchmark experiment of handwritten digits classification to illustrate the validity of the approach.",

keywords = "Generalized variance, Jensen divergence, Kernels on measures, Reproducing kernel Hilbert space, Semigroup theory",

author = "Marco Cuturi and Kenji Fukumizu and Vert, \{Jean Philippe\}",

year = "2005",

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day = "16",

language = "English",

volume = "6",

journal = "Journal of Machine Learning Research",

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TY - JOUR

T1 - Semigroup kernels on measures

AU - Cuturi, Marco

AU - Fukumizu, Kenji

AU - Vert, Jean Philippe

PY - 2005/8/16

Y1 - 2005/8/16

N2 - We present a family of positive definite kernels on measures, characterized by the fact that the value of the kernel between two measures is a function of their sum. These kernels can be used to derive kernels on structured objects, such as images and texts, by representing these objects as sets of components, such as pixels or words, or more generally as measures on the space of components. Several kernels studied in this work make use of common quantities defined on measures such as entropy or generalized variance to detect similarities. Given an a priori kernel on the space of components itself, the approach is further extended by restating the previous results in a more efficient and flexible framework using the "kernel trick". Finally, a constructive approach to such positive definite kernels through an integral representation theorem is proved, before presenting experimental results on a benchmark experiment of handwritten digits classification to illustrate the validity of the approach.

AB - We present a family of positive definite kernels on measures, characterized by the fact that the value of the kernel between two measures is a function of their sum. These kernels can be used to derive kernels on structured objects, such as images and texts, by representing these objects as sets of components, such as pixels or words, or more generally as measures on the space of components. Several kernels studied in this work make use of common quantities defined on measures such as entropy or generalized variance to detect similarities. Given an a priori kernel on the space of components itself, the approach is further extended by restating the previous results in a more efficient and flexible framework using the "kernel trick". Finally, a constructive approach to such positive definite kernels through an integral representation theorem is proved, before presenting experimental results on a benchmark experiment of handwritten digits classification to illustrate the validity of the approach.

KW - Generalized variance

KW - Jensen divergence

KW - Kernels on measures

KW - Reproducing kernel Hilbert space

KW - Semigroup theory

UR - https://www.scopus.com/pages/publications/23244459499

M3 - Article

AN - SCOPUS:23244459499

SN - 1532-4435

VL - 6

JO - Journal of Machine Learning Research

JF - Journal of Machine Learning Research

ER -

Semigroup kernels on measures

Abstract

Keywords

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