A maximal inequality for local empirical processes under weak dependence
We introduce a maximal inequality for a local empirical process under strongly mixing data. Local empirical processes are defined as the (local) averages 1/nh∑_i=1^n 1{x - h ≤ X_i ≤ x+h}f(Z_i), where f belongs to a class of functions, x ∈ℝ and h > 0 is a bandwidth. Our nonasymptotic bounds control estimation error uniformly over the function class, evaluation point x and bandwidth h. They are also general enough to accomodate function classes whose complexity increases with n. As an application, we apply our bounds to function classes that exhibit polynomial decay in their uniform covering numbers. When specialized to the problem of kernel density estimation, our bounds reveal that, under weak dependence with exponential decay, these estimators achieve the same (up to a logarithmic factor) sharp uniform-in-bandwidth rates derived in the iid setting by <cit.>.
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