English

Precise Unbiased Estimation in Randomized Experiments using Auxiliary Observational Data

Applications 2023-05-23 v3

Abstract

Randomized controlled trials (RCTs) are increasingly prevalent in education research, and are often regarded as a gold standard of causal inference. Two main virtues of randomized experiments are that they (1) do not suffer from confounding, thereby allowing for an unbiased estimate of an intervention's causal impact, and (2) allow for design-based inference, meaning that the physical act of randomization largely justifies the statistical assumptions made. However, RCT sample sizes are often small, leading to low precision; in many cases RCT estimates may be too imprecise to guide policy or inform science. Observational studies, by contrast, have strengths and weaknesses complementary to those of RCTs. Observational studies typically offer much larger sample sizes, but may suffer confounding. In many contexts, experimental and observational data exist side by side, allowing the possibility of integrating "big observational data" with "small but high-quality experimental data" to get the best of both. Such approaches hold particular promise in the field of education, where RCT sample sizes are often small due to cost constraints, but automatic collection of observational data, such as in computerized educational technology applications, or in state longitudinal data systems (SLDS) with administrative data on hundreds of thousand of students, has made rich, high-dimensional observational data widely available. We outline an approach that allows one to employ machine learning algorithms to learn from the observational data, and use the resulting models to improve precision in randomized experiments. Importantly, there is no requirement that the machine learning models are "correct" in any sense, and the final experimental results are guaranteed to be exactly unbiased. Thus, there is no danger of confounding biases in the observational data leaking into the experiment.

Keywords

Cite

@article{arxiv.2105.03529,
  title  = {Precise Unbiased Estimation in Randomized Experiments using Auxiliary Observational Data},
  author = {Johann A. Gagnon-Bartsch and Adam C. Sales and Edward Wu and Anthony F. Botelho and John A. Erickson and Luke W. Miratrix and Neil T. Heffernan},
  journal= {arXiv preprint arXiv:2105.03529},
  year   = {2023}
}

Comments

Forthcoming in Journal of Causal Inference. Replication materials at https://osf.io/d9ujq/ . Results differ very slightly from previous versions due to changes made in the process of making the analysis replicable. For details, compare https://github.com/adamSales/rebarLoop/tree/ReplicateArxiv2-2023 (previous version) to https://github.com/adamSales/rebarLoop/tree/docker (current version)

R2 v1 2026-06-24T01:53:35.483Z