arXiv:0907.2501 Abstract | arXiv Analytics

arXiv:0907.2501 [math.PR]Abstract References Reviews Resources

On the structure of Gaussian random variables

Published 2009-07-15, updated 2009-08-22Version 2

We study when a given Gaussian random variable on a given probability space $(\Omega, {\cal{F}}, P) $ is equal almost surely to $\beta_{1}$ where $\beta $ is a Brownian motion defined on the same (or possibly extended) probability space. As a consequences of this result, we prove that the distribution of a random variable (satisfying in addition a certain property) in a finite sum of Wiener chaoses cannot be normal. This result also allows to understand better some characterization of the Gaussian variables obtained via Malliavin calculus.

Categories: math.PR

Keywords: gaussian random variable, probability space, brownian motion, malliavin calculus, finite sum

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