Suppose $Y, Y_n$ are stochastic processes in $C\lbrack 0, 1 \rbrack$ and the finite-dimensional distributions of $Y_n$ converge vaguely to those of $Y$. Then a necessary and sufficient condition for the vague convergence of the distributions of $Y_n$ to that of $Y$ is an approximate equicontinuity of the sequence $\langle Y_n \rangle$. Dudley (1966) generalized this standard result. We generalize Dudley's result to the case when the values of $X_n$ are in an arbitrary metric space and extend the result also to the case of the Skorohod metric. In our situation vague compactness does not imply tightness and thus a different proof than Dudley's (1966) must be used. The proof we use is simple and of interest even when other proofs are available.

Publié le : 1975-12-14
Classification:  Vague convergence,  tightness,  uniform metric,  Skorohod metric,  stochastic process,  60B10,  62E20,  60G99

@article{1176996227,
     author = {Erickson, R. V. and Fabian, Vaclav},
     title = {On Vague Convergence of Stochastic Processes},
     journal = {Ann. Probab.},
     volume = {3},
     number = {6},
     year = {1975},
     pages = { 1014-1022},
     language = {en},
     url = {http://dml.mathdoc.fr/item/1176996227}
}

Erickson, R. V.; Fabian, Vaclav. On Vague Convergence of Stochastic Processes. Ann. Probab., Tome 3 (1975) no. 6, pp.  1014-1022. http://gdmltest.u-ga.fr/item/1176996227/