Double Machine Learning based Program Evaluation under Unconfoundedness

This paper consolidates recent methodological developments based on Double Machine Learning (DML) with a focus on program evaluation under unconfoundedness. DML based methods leverage flexible prediction methods to control for confounding in the estimation of (i) standard average effects, (ii) diffe...

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Bibliographic Details
Main Author: Knaus, Michael C.
Format: Report
Language:unknown
Subjects:
DML
Online Access:http://ux-tauri.unisg.ch/RePEc/usg/econwp/EWP-2004.pdf
Description
Summary:This paper consolidates recent methodological developments based on Double Machine Learning (DML) with a focus on program evaluation under unconfoundedness. DML based methods leverage flexible prediction methods to control for confounding in the estimation of (i) standard average effects, (ii) different forms of heterogeneous effects, and (iii) optimal treatment assignment rules. We emphasize that these estimators build all on the same doubly robust score, which allows to utilize computational synergies. An evaluation of multiple programs of the Swiss Active Labor Market Policy shows how DML based methods enable a comprehensive policy analysis. However, we find evidence that estimates of individualized heterogeneous effects can become unstable. Causal machine learning, conditional average treatment effects, optimal policy learning, individualized treatment rules, multiple treatments