Assumption-Lean Honest Inference for $Z$-functionals
Abstract
We develop a general assumption-lean framework for constructing uniformly valid confidence sets for functionals defined by moment equalities, referred to as -functionals. Our approach combines self-normalized statistics with a test inversion principle, enabling honest inference under mild regularity conditions and without explicit variance estimation. To enhance geometric tractability, we propose novel split-normalized and Gateaux-normalized statistics that yield computationally feasible and interpretable confidence sets. A central contribution of this work is a comprehensive non-asymptotic width analysis: we derive high-probability upper bounds on the diameter of the proposed confidence sets, and quantify their proximity to Wald intervals under minimal assumptions. Applications to high-dimensional non-sparse linear and generalized linear regression demonstrate that our procedures achieve valid coverage and near-optimal rate of convergence for the width/diameter, while the classical methods including Wald and bootstrap fail.
Cite
@article{arxiv.2407.12278,
title = {Assumption-Lean Honest Inference for $Z$-functionals},
author = {Woonyoung Chang and Arun Kumar Kuchibhotla},
journal= {arXiv preprint arXiv:2407.12278},
year = {2025}
}