Reproducing kernel hilbert C∗-module and kernel mean embeddings

Yuka Hashimoto; Isao Ishikawa; Masahiro Ikeda; Fuyuta Komura; Takeshi Katsura; Yoshinobu Kawahara

Reproducing kernel hilbert C^∗-module and kernel mean embeddings

Yuka Hashimoto, Isao Ishikawa, Masahiro Ikeda, Fuyuta Komura, Takeshi Katsura, Yoshinobu Kawahara

Division for Intelligent Societal Implementation of Mathmatical Computation

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

Abstract

Kernel methods have been among the most popular techniques in machine learning, where learning tasks are solved using the property of reproducing kernel Hilbert space (RKHS). In this paper, we propose a novel data analysis framework with reproducing kernel Hilbert C^∗-module (RKHM) and kernel mean embedding (KME) in RKHM. Since RKHM contains richer information than RKHS or vector-valued RKHS (vvRKHS), analysis with RKHM enables us to capture and extract structural properties in such as functional data. We show a branch of theories for RKHM to apply to data analysis, including the representer theorem, and the injectivity and universality of the proposed KME. We also show RKHM generalizes RKHS and vvRKHS. Then, we provide concrete procedures for employing RKHM and the proposed KME to data analysis.

Original language	English
Journal	Journal of Machine Learning Research
Volume	22
Publication status	Published - 2021

All Science Journal Classification (ASJC) codes

Software
Control and Systems Engineering
Statistics and Probability
Artificial Intelligence

Cite this

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title = "Reproducing kernel hilbert C∗-module and kernel mean embeddings",

abstract = "Kernel methods have been among the most popular techniques in machine learning, where learning tasks are solved using the property of reproducing kernel Hilbert space (RKHS). In this paper, we propose a novel data analysis framework with reproducing kernel Hilbert C∗-module (RKHM) and kernel mean embedding (KME) in RKHM. Since RKHM contains richer information than RKHS or vector-valued RKHS (vvRKHS), analysis with RKHM enables us to capture and extract structural properties in such as functional data. We show a branch of theories for RKHM to apply to data analysis, including the representer theorem, and the injectivity and universality of the proposed KME. We also show RKHM generalizes RKHS and vvRKHS. Then, we provide concrete procedures for employing RKHM and the proposed KME to data analysis.",

author = "Yuka Hashimoto and Isao Ishikawa and Masahiro Ikeda and Fuyuta Komura and Takeshi Katsura and Yoshinobu Kawahara",

note = "Funding Information: We would like to thank the anonymous referees and action editor Corinna Cortes, whose comments improve the manuscript significantly. This work was partially supported by JST CREST Grant Number JPMJCR1913. Publisher Copyright: {\textcopyright}2021 Yuka Hashimoto, Isao Ishikawa, Masahiro Ikeda, Fuyuta Komura, Takeshi Katsura, and Yoshinobu Kawahara.",

year = "2021",

language = "English",

volume = "22",

journal = "Journal of Machine Learning Research",

issn = "1532-4435",

publisher = "Microtome Publishing",

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TY - JOUR

T1 - Reproducing kernel hilbert C∗-module and kernel mean embeddings

AU - Hashimoto, Yuka

AU - Ishikawa, Isao

AU - Ikeda, Masahiro

AU - Komura, Fuyuta

AU - Katsura, Takeshi

AU - Kawahara, Yoshinobu

N1 - Funding Information: We would like to thank the anonymous referees and action editor Corinna Cortes, whose comments improve the manuscript significantly. This work was partially supported by JST CREST Grant Number JPMJCR1913. Publisher Copyright: ©2021 Yuka Hashimoto, Isao Ishikawa, Masahiro Ikeda, Fuyuta Komura, Takeshi Katsura, and Yoshinobu Kawahara.

PY - 2021

Y1 - 2021

N2 - Kernel methods have been among the most popular techniques in machine learning, where learning tasks are solved using the property of reproducing kernel Hilbert space (RKHS). In this paper, we propose a novel data analysis framework with reproducing kernel Hilbert C∗-module (RKHM) and kernel mean embedding (KME) in RKHM. Since RKHM contains richer information than RKHS or vector-valued RKHS (vvRKHS), analysis with RKHM enables us to capture and extract structural properties in such as functional data. We show a branch of theories for RKHM to apply to data analysis, including the representer theorem, and the injectivity and universality of the proposed KME. We also show RKHM generalizes RKHS and vvRKHS. Then, we provide concrete procedures for employing RKHM and the proposed KME to data analysis.

AB - Kernel methods have been among the most popular techniques in machine learning, where learning tasks are solved using the property of reproducing kernel Hilbert space (RKHS). In this paper, we propose a novel data analysis framework with reproducing kernel Hilbert C∗-module (RKHM) and kernel mean embedding (KME) in RKHM. Since RKHM contains richer information than RKHS or vector-valued RKHS (vvRKHS), analysis with RKHM enables us to capture and extract structural properties in such as functional data. We show a branch of theories for RKHM to apply to data analysis, including the representer theorem, and the injectivity and universality of the proposed KME. We also show RKHM generalizes RKHS and vvRKHS. Then, we provide concrete procedures for employing RKHM and the proposed KME to data analysis.

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M3 - Article

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SN - 1532-4435

VL - 22

JO - Journal of Machine Learning Research

JF - Journal of Machine Learning Research

ER -

Reproducing kernel hilbert C^∗-module and kernel mean embeddings

Abstract

All Science Journal Classification (ASJC) codes

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