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Metalearners for estimating heterogeneous treatment effects using machine learning
by
Bickel, Peter J.
, Künzel, Sören R.
, Yu, Bin
, Sekhon, Jasjeet S.
in
Algorithms
/ Artificial intelligence
/ Bayesian analysis
/ Computer simulation
/ conditional average treatment
/ effect
/ ENGINEERING
/ Estimation
/ Field tests
/ heterogeneous treatment effects
/ Learning algorithms
/ Machine learning
/ minimax optimality
/ Neural networks
/ Observational studies
/ Physical Sciences
/ PNAS Plus
/ Political science
/ Political Sciences
/ randomized controlled trials
/ Regression analysis
/ Response functions
/ Social Sciences
/ Statistics
2019
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Metalearners for estimating heterogeneous treatment effects using machine learning
by
Bickel, Peter J.
, Künzel, Sören R.
, Yu, Bin
, Sekhon, Jasjeet S.
in
Algorithms
/ Artificial intelligence
/ Bayesian analysis
/ Computer simulation
/ conditional average treatment
/ effect
/ ENGINEERING
/ Estimation
/ Field tests
/ heterogeneous treatment effects
/ Learning algorithms
/ Machine learning
/ minimax optimality
/ Neural networks
/ Observational studies
/ Physical Sciences
/ PNAS Plus
/ Political science
/ Political Sciences
/ randomized controlled trials
/ Regression analysis
/ Response functions
/ Social Sciences
/ Statistics
2019
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Do you wish to request the book?
Metalearners for estimating heterogeneous treatment effects using machine learning
by
Bickel, Peter J.
, Künzel, Sören R.
, Yu, Bin
, Sekhon, Jasjeet S.
in
Algorithms
/ Artificial intelligence
/ Bayesian analysis
/ Computer simulation
/ conditional average treatment
/ effect
/ ENGINEERING
/ Estimation
/ Field tests
/ heterogeneous treatment effects
/ Learning algorithms
/ Machine learning
/ minimax optimality
/ Neural networks
/ Observational studies
/ Physical Sciences
/ PNAS Plus
/ Political science
/ Political Sciences
/ randomized controlled trials
/ Regression analysis
/ Response functions
/ Social Sciences
/ Statistics
2019
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Metalearners for estimating heterogeneous treatment effects using machine learning
Journal Article
Metalearners for estimating heterogeneous treatment effects using machine learning
2019
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Overview
There is growing interest in estimating and analyzing heterogeneous treatment effects in experimental and observational studies. We describe a number of metaalgorithms that can take advantage of any supervised learning or regression method in machine learning and statistics to estimate the conditional average treatment effect (CATE) function. Metaalgorithms build on base algorithms—such as random forests (RFs), Bayesian additive regression trees (BARTs), or neural networks—to estimate the CATE, a function that the base algorithms are not designed to estimate directly. We introduce a metaalgorithm, the X-learner, that is provably efficient when the number of units in one treatment group is much larger than in the other and can exploit structural properties of the CATE function. For example, if the CATE function is linear and the response functions in treatment and control are Lipschitz-continuous, the X-learner can still achieve the parametric rate under regularity conditions. We then introduce versions of the X-learner that use RF and BART as base learners. In extensive simulation studies, the X-learner performs favorably, although none of the metalearners is uniformly the best. In two persuasion field experiments from political science, we demonstrate how our X-learner can be used to target treatment regimes and to shed light on underlying mechanisms. A software package is provided that implements our methods.
Publisher
National Academy of Sciences
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