Chasing Balance and Other Recommendations for Improving Nonparametric Propensity Score Models

Chasing Balance and Other Recommendations for Improving Nonparametric Propensity Score Models

In this article, we carefully examine two important implementation issues when estimating propensity scores using generalized boosted models (GBM), a promising machine learning technique. First, we examine which of the following methods for tuning GBM lead to better covariate balance and inferences...

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Bibliographic Details
Main Authors: Griffin Beth Ann, McCaffrey Daniel F., Almirall Daniel, Burgette Lane F., Setodji Claude Messan
Format: Article
Language:English
Published: De Gruyter 2017-01-01
Series:Journal of Causal Inference
Subjects:
propensity score
generalized boosted models
covariate balance
machine learning methods
Online Access:https://doi.org/10.1515/jci-2015-0026
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spelling doaj-87db08d8ef3e4d5eb4cff977984c055d2021-09-06T19:40:28ZengDe GruyterJournal of Causal Inference2193-36772193-36852017-01-015216918810.1515/jci-2015-0026Chasing Balance and Other Recommendations for Improving Nonparametric Propensity Score ModelsGriffin Beth Ann0McCaffrey Daniel F.1Almirall Daniel2Burgette Lane F.3Setodji Claude Messan4RAND Corporation, Arlington, VA, USAETS Research, Princeton, NJ, USAUniversity of Michigan, Ann Arbor, MI, USARAND Corporation, Arlington, VA, USARAND Corporation, Arlington, VA, USAIn this article, we carefully examine two important implementation issues when estimating propensity scores using generalized boosted models (GBM), a promising machine learning technique. First, we examine which of the following methods for tuning GBM lead to better covariate balance and inferences about causal effects: pursuing covariate balance between the treatment groups or tuning the propensity score model on the basis of a model fit criterion. Second, we examine how well GBM can handle irrelevant covariates that are included in the estimation model. We find that chasing balance rather than model fit when estimating propensity scores yielded better covariate balance and more accurate treatment effect estimates. Additionally, we find that adding irrelevant covariates to GBM increased imbalance and bias in the treatment effects. The findings from this paper have useful implications for other work focused on improving methods for estimating propensity scores.https://doi.org/10.1515/jci-2015-0026propensity scoregeneralized boosted modelscovariate balancemachine learning methods
collection DOAJ
language English
format Article
sources DOAJ
author Griffin Beth Ann
McCaffrey Daniel F.
Almirall Daniel
Burgette Lane F.
Setodji Claude Messan
spellingShingle Griffin Beth Ann
McCaffrey Daniel F.
Almirall Daniel
Burgette Lane F.
Setodji Claude Messan
Chasing Balance and Other Recommendations for Improving Nonparametric Propensity Score Models
Journal of Causal Inference
propensity score
generalized boosted models
covariate balance
machine learning methods
author_facet Griffin Beth Ann
McCaffrey Daniel F.
Almirall Daniel
Burgette Lane F.
Setodji Claude Messan
author_sort Griffin Beth Ann
title Chasing Balance and Other Recommendations for Improving Nonparametric Propensity Score Models
title_short Chasing Balance and Other Recommendations for Improving Nonparametric Propensity Score Models
title_full Chasing Balance and Other Recommendations for Improving Nonparametric Propensity Score Models
title_fullStr Chasing Balance and Other Recommendations for Improving Nonparametric Propensity Score Models
title_full_unstemmed Chasing Balance and Other Recommendations for Improving Nonparametric Propensity Score Models
title_sort chasing balance and other recommendations for improving nonparametric propensity score models
publisher De Gruyter
series Journal of Causal Inference
issn 2193-3677
2193-3685
publishDate 2017-01-01
description In this article, we carefully examine two important implementation issues when estimating propensity scores using generalized boosted models (GBM), a promising machine learning technique. First, we examine which of the following methods for tuning GBM lead to better covariate balance and inferences about causal effects: pursuing covariate balance between the treatment groups or tuning the propensity score model on the basis of a model fit criterion. Second, we examine how well GBM can handle irrelevant covariates that are included in the estimation model. We find that chasing balance rather than model fit when estimating propensity scores yielded better covariate balance and more accurate treatment effect estimates. Additionally, we find that adding irrelevant covariates to GBM increased imbalance and bias in the treatment effects. The findings from this paper have useful implications for other work focused on improving methods for estimating propensity scores.
topic propensity score
generalized boosted models
covariate balance
machine learning methods
url https://doi.org/10.1515/jci-2015-0026
work_keys_str_mv AT griffinbethann chasingbalanceandotherrecommendationsforimprovingnonparametricpropensityscoremodels
AT mccaffreydanielf chasingbalanceandotherrecommendationsforimprovingnonparametricpropensityscoremodels
AT almiralldaniel chasingbalanceandotherrecommendationsforimprovingnonparametricpropensityscoremodels
AT burgettelanef chasingbalanceandotherrecommendationsforimprovingnonparametricpropensityscoremodels
AT setodjiclaudemessan chasingbalanceandotherrecommendationsforimprovingnonparametricpropensityscoremodels
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