High-Dimensional Variance Estimation for the Generalized Regression Estimator
Abstract
In survey sampling, the goal is to estimate finite population parameters such as totals, means, and proportions.
At the estimation stage, it is common to have access to auxiliary information in the form of covariates known either in aggregate form or for each population unit.
These covariates are often used, through models relating them to the variable of interest, to improve efficiency; this approach is known as model-assisted estimation.
Modern applications increasingly involve settings where a large number of covariates are observed, sometimes of the same order as the sample size.
While this setting offers greater modeling flexibility, it also creates important challenges for inference.
In this article, we study variance estimation for the generalized regression (GREG) estimator in high-dimensional regimes.
We derive new theoretical results that characterize the high-dimensional asymptotic bias of commonly used variance estimators, including those based on Taylor linearization.
Furthermore, under suitable distributional assumptions on the covariates, we show that a cross-validated variance estimator is naturally asymptotically unbiased.
이 뉴스, 어떠셨어요?
한 번의 탭으로 반응을 남겨요 · 로그인 불필요