Geometric infinite divisibility, stability, and self-similarity: an overview
Tomasz J. Kozubowski
Banach Center Publications, Tome 89 (2010), p. 39-65 / Harvested from The Polish Digital Mathematics Library

The concepts of geometric infinite divisibility and stability extend the classical properties of infinite divisibility and stability to geometric convolutions. In this setting, a random variable X is geometrically infinitely divisible if it can be expressed as a random sum of Np components for each p ∈ (0,1), where Np is a geometric random variable with mean 1/p, independent of the components. If the components have the same distribution as that of a rescaled X, then X is (strictly) geometric stable. This leads to broad classes of probability distributions closely connected with their classical counterparts. We review fundamental properties of these distributions and discuss further extensions connected with geometric sums, including multivariate and operator geometric stability, discrete analogs, and geometric self-similarity.

Publié le : 2010-01-01
EUDML-ID : urn:eudml:doc:281641
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     title = {Geometric infinite divisibility, stability, and self-similarity: an overview},
     journal = {Banach Center Publications},
     volume = {89},
     year = {2010},
     pages = {39-65},
     zbl = {1214.60002},
     language = {en},
     url = {http://dml.mathdoc.fr/item/bwmeta1.element.bwnjournal-article-doi-10_4064-bc90-0-3}
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Tomasz J. Kozubowski. Geometric infinite divisibility, stability, and self-similarity: an overview. Banach Center Publications, Tome 89 (2010) pp. 39-65. http://gdmltest.u-ga.fr/item/bwmeta1.element.bwnjournal-article-doi-10_4064-bc90-0-3/