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Bootstrapping Max Statistics in High Dimensions: Near-Parametric Rates Under Weak Variance Decay and Application to Functional and Multinomial Data

Abstract

In recent years, bootstrap methods have drawn attention for their ability to approximate the laws of "max statistics" in high-dimensional problems. A leading example of such a statistic is the coordinate-wise maximum of a sample average of nn random vectors in Rp\mathbb{R}^p. Existing results for this statistic show that the bootstrap can work when npn\ll p, and rates of approximation (in Kolmogorov distance) have been obtained with only logarithmic dependence in pp. Nevertheless, one of the challenging aspects of this setting is that established rates tend to scale like n1/6n^{-1/6} as a function of nn. The main purpose of this paper is to demonstrate that improvement in rate is possible when extra model structure is available. Specifically, we show that if the coordinate-wise variances of the observations exhibit decay, then a nearly n1/2n^{-1/2} rate can be achieved, independent of pp. Furthermore, a surprising aspect of this dimension-free rate is that it holds even when the decay is very weak. Lastly, we provide examples showing how these ideas can be applied to inference problems dealing with functional and multinomial data.

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