A model-based approach to density estimation in sup-norm
Abstract
We define a general method for finding a quasi-best approximant in sup-norm to a target density belonging to a given model, based on independent samples drawn from distributions which average to the target (which does not necessarily belong to the model). We also provide a general method for selecting among a countable family of such models. These estimators satisfy oracle inequalities in the general setting. The quality of the bounds depends on the volume of sets on which is close to its maximum, where belong to the model (or possibly to two different models, in the case of model selection). This leads to optimal results in a number of settings, including piecewise polynomials on a given partition and anisotropic smoothness classes. Particularly interesting is the case of the single index model with fixed smoothness , where we recover the one-dimensional rate: this was an open problem.
Cite
@article{arxiv.2506.20239,
title = {A model-based approach to density estimation in sup-norm},
author = {Guillaume Maillard},
journal= {arXiv preprint arXiv:2506.20239},
year = {2025}
}