A Penalized Synthetic Control Estimator for Disaggregated Data

Synthetic control methods are commonly applied in empirical research to estimate the effects of treatments or interventions on aggregate outcomes. A synthetic control estimator compares the outcome of a treated unit to the outcome of a weighted average of untreated units that best resembles the char...

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Veröffentlicht in:Journal of the American Statistical Association Jg. 116; H. 536; S. 1817 - 1834
Hauptverfasser: Abadie, Alberto, L'Hour, Jérémy
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Alexandria Taylor & Francis 02.10.2021
Taylor & Francis Ltd
Schlagworte:
Americans
Causal inference
Control methods
Data
Discrepancies
empirical research
Interpolation
Intervention
Matching
Observational studies
Parameters
Property
Regression analysis
Research methodology
solutions
Statistical methods
Statistics
trade
Treatment effects
Treatment methods
ISSN:0162-1459, 1537-274X, 1537-274X
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Zusammenfassung:Synthetic control methods are commonly applied in empirical research to estimate the effects of treatments or interventions on aggregate outcomes. A synthetic control estimator compares the outcome of a treated unit to the outcome of a weighted average of untreated units that best resembles the characteristics of the treated unit before the intervention. When disaggregated data are available, constructing separate synthetic controls for each treated unit may help avoid interpolation biases. However, the problem of finding a synthetic control that best reproduces the characteristics of a treated unit may not have a unique solution. Multiplicity of solutions is a particularly daunting challenge when the data include many treated and untreated units. To address this challenge, we propose a synthetic control estimator that penalizes the pairwise discrepancies between the characteristics of the treated units and the characteristics of the units that contribute to their synthetic controls. The penalization parameter trades off pairwise matching discrepancies with respect to the characteristics of each unit in the synthetic control against matching discrepancies with respect to the characteristics of the synthetic control unit as a whole. We study the properties of this estimator and propose data-driven choices of the penalization parameter.
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ISSN:0162-1459
1537-274X
1537-274X
DOI:10.1080/01621459.2021.1971535