Some Conditions Under Which Two Random Variables are Equal Almost Surely and a Simple Proof of a Theorem of Chung and Fuchs
Gilat, David
Ann. Math. Statist., Tome 42 (1971) no. 6, p. 1647-1655 / Harvested from Project Euclid
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Let $(X, Y)$ be an ordered pair of real-valued random variables. Say that $(X, Y)$ is fair if $E(Y \mid X) = X$ a.s. It is shown, for example, that if $X$ has a finite mean and the pair $(X, Y)$ is fair, then $X$ and $Y$ cannot be stochastically ordered unless $X = Y$ a.s. The conclusion is in general false, if $X$ does not have a mean. On the other hand, if $X$ is independent of the increment $Y - X$, the preceding statement remains in force without any moment restrictions on $X$. The last assertion, combined with a gambling idea of Dubins and Savage, yields a simple proof of a theorem of Chung and Fuchs on the upper limit of a random walk with mean zero.
Publié le : 1971-10-14
Classification:  
@article{1177693163,
     author = {Gilat, David},
     title = {Some Conditions Under Which Two Random Variables are Equal Almost Surely and a Simple Proof of a Theorem of Chung and Fuchs},
     journal = {Ann. Math. Statist.},
     volume = {42},
     number = {6},
     year = {1971},
     pages = { 1647-1655},
     language = {en},
     url = {http://dml.mathdoc.fr/item/1177693163}
}

Gilat, David. Some Conditions Under Which Two Random Variables are Equal Almost Surely and a Simple Proof of a Theorem of Chung and Fuchs. Ann. Math. Statist., Tome 42 (1971) no. 6, pp.  1647-1655. http://gdmltest.u-ga.fr/item/1177693163/