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Skorokhod's embedding theorem

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In mathematics and probability theory, Skorokhod's embedding theorem is either or both of two theorems that allow one to regard any suitable collection of random variables as a Wiener process (Brownian motion) evaluated at a collection of stopping times. Both results are named for the Ukrainian mathematician A.V. Skorokhod.

Skorokhod's first embedding theorem

Let X be a real-valued random variable with expected value 0 and finite variance; let W denote a canonical real-valued Wiener process. Then there is a stopping time (with respect to the natural filtration of W), τ, such that Wτ has the same distribution as X,

and

Skorokhod's second embedding theorem

Let X1, X2, ... be a sequence of independent and identically distributed random variables, each with expected value 0 and finite variance, and let

Then there is a sequence of stopping times τ1τ2 ≤ ... such that the have the same joint distributions as the partial sums Sn and τ1, τ2τ1, τ3τ2, ... are independent and identically distributed random variables satisfying

and

References

  • Billingsley, Patrick (1995). Probability and Measure. New York: John Wiley & Sons, Inc. ISBN 0-471-00710-2. (Theorems 37.6, 37.7)