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Multivariate versions of dimension walks and Schoenberg measures

Lookup NU author(s): Professor Emilio Porcu

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Abstract

This paper considers multivariate Gaussian fields with their associated matrix valued covariance functions. In particular, we characterize the class of stationary-isotropic matrix valued covariance functions on dd-dimensional Euclidean spaces, as being the scale mixture of the characteristic function of a dd dimensional random vector being uniformly distributed on the spherical shell of Rd, with a uniquely determined matrix valued and signed measure. This result is the analogue of celebrated Schoenberg theorem, which characterizes stationary and isotropic covariance functions associated to an univariate Gaussian fields.The elements C, being matrix valued, radially symmetric and positive definite on Rd, have a matrix valued generator φ such that C(τ)=φ(‖τ‖), ∀τ∈Rd, and where ‖⋅‖ is the Euclidean norm. This fact is the crux, together with our analogue of Schoenberg’s theorem, to show the existence of operators that, applied to the generators φ of a matrix valued mapping C being positive definite on Rd, allow to obtain generators associated to other matrix valued mappings, say C̃, being positive definite on Euclidean spaces of different dimensions.


Publication metadata

Author(s): Alonso-Malaver CE, Porcu E, Henao RG

Publication type: Article

Publication status: Published

Journal: Brazilian Journal of Probability and Statistics

Year: 2017

Volume: 31

Issue: 1

Pages: 144-159

Online publication date: 25/01/2017

Acceptance date: 01/12/2015

ISSN (print): 0103-0752

Publisher: Brazilian Statistical Association

URL: https://doi.org/10.1214/15-BJPS306

DOI: 10.1214/15-BJPS306

Notes:


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