We show that increments of size $h_n$ from the uniform quantile and n ?.uniform empirical processes in the neighborhood of a fixed point $t_0 \in (0,1)$ may have different rates of almost sure convergence to 0 in the range where $h_n \to 0$ and $nh_n /\log n \to \infty$. In particular, when $h_n = n^{-\lambda}$ with $0<\lambda<1$, we obtain that these rates are identical for $1/2<\lambda<1$, and distinct for $0<\lambda<1/2$. This phenomenon is shown to be a consequence of functional laws of the iterated logarithm for local quantile processes, which we describe in a more general setting. As a consequence of these results, we prove that, for any $\varaepsilon>0$, the best possible uniform almost sure rate of approximation of the uniform quantile process by a normed Kiefer process is not better than $O(n ^{-1/4}\log n)^{-\varepsilon})$.

Publié le : 1997-10-14
Classification:  Empirical processes,  quantile processes,  order statistics,  law of the iterated logarithm,  almost sure convergence,  strong laws,  strong invariance principles,  strong approximation,  Kiefer processes,  Wiener processes,  60F15,  60G15

@article{1023481119,
     author = {Deheuvels, Paul},
     title = {Strong laws for local quantile processes},
     journal = {Ann. Probab.},
     volume = {25},
     number = {4},
     year = {1997},
     pages = { 2007-2054},
     language = {en},
     url = {http://dml.mathdoc.fr/item/1023481119}
}

Deheuvels, Paul. Strong laws for local quantile processes. Ann. Probab., Tome 25 (1997) no. 4, pp.  2007-2054. http://gdmltest.u-ga.fr/item/1023481119/