Student’s t-Distribution and Related Stochastic Processes, 2013 SpringerBriefs in Statistics Series

This brief monograph is an in-depth study of the infinite divisibility and self-decomposability properties of central and noncentral Student?s distributions, represented as variance and mean-variance mixtures of multivariate Gaussian distributions with the reciprocal gamma mixing distribution. These results allow us to define and analyse Student-Lévy processes as Thorin subordinated Gaussian Lévy processes. A broad class of one-dimensional, strictly stationary diffusions with the Student?s t-marginal distribution are defined as the unique weak solution for the stochastic differential equation. Using the independently scattered random measures generated by the bi-variate centred Student-Lévy process, and stochastic integration theory, a univariate, strictly stationary process with the centred Student?s t- marginals and the arbitrary correlation structure are defined. As a promising direction for future work in constructing and analysing new multivariate Student-Lévy type processes, the notion of Lévy copulas and the related analogue of Sklar?s theorem are explained.

Introduction.- Asymptotics.- Preliminaries of Lévy Processes.- Student-Lévy Processes.- Student OU-type Processes.- Student Diffusion Processes.- Miscellanea.- Bessel Functions.- References.- Index.

In-depth study of the infinite divisibility and self-decomposability properties of central and noncentral Student’s distributions Extreme value theory for such diffusions is developed Flexible and statistically tractable Kolmogorov-Pearson diffusions are described Includes supplementary material: sn.pub/extras