Optimal Inference with a Multidimensional Multiscale Statistic

Abstract

We observe a stochastic process Y on [0,1]d (d≥ 1) satisfying dY(t)=n1/2f(t)dt + dW(t), t ∈ [0,1]d, where n ≥ 1 is a given scale parameter (`sample size'), W is the standard Brownian sheet on [0,1]d and f ∈ L1([0,1]d) is the unknown function of interest. We propose a multivariate multiscale statistic in this setting and prove its almost sure finiteness; this extends the work of D\"umbgen and Spokoiny (2001) who proposed the analogous statistic for d=1. We use the proposed multiscale statistic to construct optimal tests for testing f=0 versus (i) appropriate H\"older classes of functions, and (ii) alternatives of the form f=μn IBn, where Bn is an axis-aligned hyperrectangle in [0,1]d and μn ∈ R; μn and Bn unknown. In the process we generalize Theorem 6.1 of D\"umbgen and Spokoiny (2001) about stochastic processes with sub-Gaussian increments on a pseudometric space, which is of independent interest.