Skorokhod theorem
Skorokhod representation theorem
Suppose that 
is a sequence of probability measures on a complete and separable metric space 
that converges weakly (cf. Weak topology) to a probability measure 
(that is, 
for any continuous and bounded function 
on 
). Then there exists a probability space 
and 
-valued random elements 
, 
with distributions 
and 
, respectively, such that 
converges 
-almost surely to 
(cf. Convergence, almost-certain).
If 
, the proof of this result reduces to taking for 
the unit interval 
with Lebesgue measure and letting 
, and 
, for 
.
In [a1] the theorem has been extended to general separable metric spaces, while in [a4] the result is proved for an arbitrary metric space, assuming that the limit probability 
is concentrated on a separable set. Extensions of this theorem to non-metrizable topological spaces are discussed in [a2].
References
| [a1] | R.M. Dudley, "Distance of probability measures and random variables" Ann. Math. Stat. , 39 (1968) pp. 1563–1572 |
| [a2] | A. Schief, "Almost surely convergent random variables with given laws" Probab. Th. Rel. Fields , 81 (1989) pp. 559–567 |
| [a3] | A.V. Skorokhod, "Limit theorems for stochastic processes" Th. Probab. Appl. , 1 (1956) pp. 261–290 |
| [a4] | M.J. Wichura, "On the construction of almost uniformly convergent random variables with given weakly convergent image laws" Ann. Math. Stat. , 41 (1970) pp. 284–291 |
Skorokhod theorem. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Skorokhod_theorem&oldid=48732