Scalable Bayes under Informative Sampling

Abstract

The United States Bureau of Labor Statistics collects data using survey instruments under informative sampling designs that assign probabilities of inclusion to be correlated with the response. The bureau extensively uses Bayesian hierarchical models and posterior sampling to impute missing items in respondent-level data and to infer population parameters. Posterior sampling for survey data collected based on informative designs are computationally expensive and do not support production schedules of the bureau. Motivated by this problem, we propose a new method to scale Bayesian computations in informative sampling designs. Our method divides the data into smaller subsets, performs posterior sampling in parallel for every subset, and combines the collection of posterior samples from all the subsets through their mean in the Wasserstein space of order 2. Theoretically, we construct conditions on a class of sampling designs where posterior consistency of the proposed method is achieved. Empirically, we demonstrate that our method is competitive with traditional methods while being significantly faster in many simulations and in the Current Employment Statistics survey conducted by the bureau.