A Complete Characterization of Multivariate Normal Stable Tweedie Models through a Monge—Ampère Property

Extending normal gamma and normal inverse Gaussian models, multivariate normal stable Tweedie (NST) models are composed by a fixed univariate stable Tweedie variable having a positive value domain, and the remaining random variables given the fixed one are real independent Gaussian variables with th...

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Bibliographic Details
Published in:Acta mathematica Sinica. English series 2020-11, Vol.36 (11), p.1232-1244
Main Authors: Kokonendji, Célestin C., Moypemna Sembona, Cyrille C., Nisa, Khoirin
Format: Article
Language:English
Subjects:
Covariance matrix
Differential equations
Differential geometry
Independent variables
Mathematics
Mathematics and Statistics
Matrix methods
Multivariate analysis
Random variables
Real variables
Slopes
Variance
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Summary:Extending normal gamma and normal inverse Gaussian models, multivariate normal stable Tweedie (NST) models are composed by a fixed univariate stable Tweedie variable having a positive value domain, and the remaining random variables given the fixed one are real independent Gaussian variables with the same variance equal to the fixed component. Within the framework of multivariate exponential families, the NST models are recently classified by their covariance matrices V(m) depending on the mean vector m . In this paper, we prove the characterization of all the NST models through their determinants of V(m) , also called generalized variance functions, which are power of only one component of m . This result is established under the NST assumptions of Monge-Ampère property and steepness. It completes the two special cases of NST, namely normal Poisson and normal gamma models. As a matter of fact, it provides explicit solutions of particular Monge-Ampère equations in differential geometry.
ISSN:1439-8516
1439-7617
DOI:10.1007/s10114-020-8377-6