Functional limit laws for the increments of the quantile process; with applications

Abstract

We establish a functional limit law of the logarithm for the increments of the normed quantile process based upon a random sample of size n∞. We extend a limit law obtained by Deheuvels and Mason (12), showing that their results hold uniformly over the bandwidth h, restricted to vary in [h'n,h''n], where \h'n\n≥1 and \h''n\n≥ 1 are appropriate non-random sequences. We treat the case where the sample observations follow possibly non-uniform distributions. As a consequence of our theorems, we provide uniform limit laws for nearest-neighbor density estimators, in the spirit of those given by Deheuvels and Mason (13) for kernel-type estimators.

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