利用倾向得分校准提高双重/偏差机器学习的有限样本性能

Daniele Ballinari, Nora Bearth
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引用次数: 0

摘要

双重/偏倚机器学习(DML)(Chernozhukov 等人,2018 年)使用双稳健得分函数,该函数依赖于对倾向得分等滋扰函数的预测,倾向得分是以协变量为条件的治疗分配概率。机器学习器往往会高估或低估这些概率,从而加剧了这一问题的严重性。为了改进机器学习器的概率预测,已经提出了几种校准方法。本文研究了在 DML 框架内使用概率校准方法的情况。模拟结果表明,校准倾向得分可以显著降低有限样本中 DML 估计平均治疗效果的均方根误差。我们在一个实证例子中展示了这一方法,并提供了校准不会改变 DML 估计器渐近特性的条件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improving the Finite Sample Performance of Double/Debiased Machine Learning with Propensity Score Calibration
Machine learning techniques are widely used for estimating causal effects. Double/debiased machine learning (DML) (Chernozhukov et al., 2018) uses a double-robust score function that relies on the prediction of nuisance functions, such as the propensity score, which is the probability of treatment assignment conditional on covariates. Estimators relying on double-robust score functions are highly sensitive to errors in propensity score predictions. Machine learners increase the severity of this problem as they tend to over- or underestimate these probabilities. Several calibration approaches have been proposed to improve probabilistic forecasts of machine learners. This paper investigates the use of probability calibration approaches within the DML framework. Simulation results demonstrate that calibrating propensity scores may significantly reduces the root mean squared error of DML estimates of the average treatment effect in finite samples. We showcase it in an empirical example and provide conditions under which calibration does not alter the asymptotic properties of the DML estimator.
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