Functional central limit theorem for heavy tailed stationary infinitely divisible processes generated by conservative flows

Citation
Takashi, Owada et Gennady, Samorodnitsky, Functional central limit theorem for heavy tailed stationary infinitely divisible processes generated by conservative flows, Annals of probability (Online) , 43(1), 2015, pp. 240-285
ISSN journal
2168894X
Volume
43
Issue
1
Year of publication
2015
Pages
240 - 285
Database
ACNP
SICI code
Abstract
We establish a new class of functional central limit theorems for partial sum of certain symmetric stationary infinitely divisible processes with regularly varying Lévy measures. The limit process is a new class of symmetric stable self-similar processes with stationary increments that coincides on a part of its parameter space with a previously described process. The normalizing sequence and the limiting process are determined by the ergodic-theoretical properties of the flow underlying the integral representation of the process. These properties can be interpreted as determining how long the memory of the stationary infinitely divisible process is. We also establish functional convergence, in a strong distributional sense, for conservative pointwise dual ergodic maps preserving an infinite measure.