Prediction-powered Generalization of Causal Inferences

Abstract

Causal inferences from a randomized controlled trial (RCT) may not pertain to a target population where some effect modifiers have a different distribution. Prior work studies generalizing the results of a trial to a target population with no outcome but covariate data available. We show how the limited size of trials makes generalization a statistically infeasible task, as it requires estimating complex nuisance functions. We develop generalization algorithms that supplement the trial data with a prediction model learned from an additional observational study (OS), without making any assumptions on the OS. We theoretically and empirically show that our methods facilitate better generalization when the OS is “high-quality”, and remain robust when it is not, and e.g., have unmeasured confounding.

Publication
ICML 2024
Ilker Demirel
Ilker Demirel
PhD Student

Ilker focuses on developing reliable causal inference methods that can leverage rich and heterogeneous sources of data and can be applied in practice.

Ahmed Alaa
Ahmed Alaa
Postdoctoral Associate

Assistant Professor, UC Berkeley and UCSF

David Sontag
David Sontag
Professor of EECS

My research focuses on advancing machine learning and artificial intelligence, and using these to transform health care.

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