Multifractal Random Walks as Fractional Wiener Integrals

Author

Abry, Patrice ; Chainais, Pierre ; Coutin, Laure ; Pipiras, Vladas

Author_Institution

ENS Lyon Phys. Dept., CNRS, Lyon, France

Volume

55

Issue

8

fYear

2009

Firstpage

3825

Lastpage

3846

Abstract

Multifractal random walks are defined as integrals of infinitely divisible stationary multifractal cascades with respect to fractional Brownian motion. Their key properties are studied, such as finiteness of moments and scaling, with respect to the chosen values of the self-similarity and infinite divisibility parameters. The range of these parameters is larger than that considered previously in the literature, and the cases of both exact and nonexact scale invariance are considered. Special attention is paid to various types of definitions of multifractal random walks. The resulting random walks are of interest in modeling multifractal processes whose marginals exhibit stationarity and symmetry.

Keywords

integral equations; random processes; stochastic processes; fractional Brownian motion; fractional Wiener integrals; infinite divisibility parameters; infinitely divisible stationary multifractal cascades; multifractal random walks; nonexact scale invariance; Brownian motion; DNA; Finance; Fractals; Genetics; Geophysical measurements; Geophysics; Hydrodynamics; Internet; Sequences; Fractional Brownian motion; fractional Wiener integrals; infinitely divisible cascades; multifractal random walks; multifractals; scaling properties;

fLanguage

English

Journal_Title

Information Theory, IEEE Transactions on

Publisher

ieee

ISSN

0018-9448

Type

jour

DOI

10.1109/TIT.2009.2023708

Filename

5165188