English

Strong Convergence of Multivariate Maxima

Probability 2020-05-06 v3

Abstract

It is well known and readily seen that the maximum of nn independent and uniformly on [0,1][0,1] distributed random variables, suitably standardised, converges in total variation distance, as nn increases, to the standard negative exponential distribution. We extend this result to higher dimensions by considering copulas. We show that the strong convergence result holds for copulas that are in a differential neighbourhood of a multivariate generalized Pareto copula. Sklar's theorem then implies convergence in variational distance of the maximum of nn independent and identically distributed random vectors with arbitrary common distribution function and (under conditions on the marginals) of its appropriately normalised version. We illustrate how these convergence results can be exploited to establish the almost-sure consistency of some estimation procedures for max-stable models, using sample maxima.

Keywords

Cite

@article{arxiv.1903.10596,
  title  = {Strong Convergence of Multivariate Maxima},
  author = {Michael Falk and Simone A. Padoan and Stefano Rizzelli},
  journal= {arXiv preprint arXiv:1903.10596},
  year   = {2020}
}
R2 v1 2026-06-23T08:18:49.305Z