English

Functional Convergence of Sequential U-processes with Size-Dependent Kernels

Probability 2022-03-16 v5

Abstract

We consider sequences of UU-processes based on symmetric kernels of a fixed order, that possibly depend on the sample size. Our main contribution is the derivation of a set of analytic sufficient conditions, under which the aforementioned UU-processes weakly converge to a linear combination of time-changed independent Brownian motions. In view of the underlying symmetric structure, the involved time-changes and weights remarkably depend only on the order of the U-statistic, and have consequently a universal nature. Checking these sufficient conditions requires calculations that have roughly the same complexity as those involved in the computation of fourth moments and cumulants. As such, when applied to the degenerate case, our findings are infinite-dimensional extensions of the central limit theorems (CLTs) proved in de Jong (1990) and D\"obler and Peccati (2017). As important tools in our analysis, we exploit the multidimensional central limit theorems established in D\"obler and Peccati (2019) together with upper bounds on absolute moments of degenerate UU-statistics by Ibragimov and Sharakhmetov (2002), and also prove some novel multiplication formulae for degenerate symmetric UU-statistics -- allowing for different sample sizes -- that are of independent interest. We provide applications to random geometric graphs and to a class of UU-statistics of order two, whose Gaussian fluctuations have been recently studied by Robins et al. (2016), in connection with quadratic estimators in non-parametric models. In particular, our application to random graphs yields a class of new functional central limit theorems for subgraph counting statistics, extending previous findings in the literature. Finally, some connections with invariance principles in changepoint analysis are established.

Keywords

Cite

@article{arxiv.1912.02705,
  title  = {Functional Convergence of Sequential U-processes with Size-Dependent Kernels},
  author = {Christian Döbler and Mikołaj Kasprzak and Giovanni Peccati},
  journal= {arXiv preprint arXiv:1912.02705},
  year   = {2022}
}

Comments

final version

R2 v1 2026-06-23T12:37:09.504Z