Double/Debiased CoCoLASSO of Treatment Effects with Mismeasured High-Dimensional Control Variables

Geonwoo Kim, Suyong Song
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Abstract

We develop an estimator for treatment effects in high-dimensional settings with additive measurement error, a prevalent challenge in modern econometrics. We introduce the Double/Debiased Convex Conditioned LASSO (Double/Debiased CoCoLASSO), which extends the double/debiased machine learning framework to accommodate mismeasured covariates. Our principal contributions are threefold. (1) We construct a Neyman-orthogonal score function that remains valid under measurement error, incorporating a bias correction term to account for error-induced correlations. (2) We propose a method of moments estimator for the measurement error variance, enabling implementation without prior knowledge of the error covariance structure. (3) We establish the $\sqrt{N}$-consistency and asymptotic normality of our estimator under general conditions, allowing for both the number of covariates and the magnitude of measurement error to increase with the sample size. Our theoretical results demonstrate the estimator's efficiency within the class of regularized high-dimensional estimators accounting for measurement error. Monte Carlo simulations corroborate our asymptotic theory and illustrate the estimator's robust performance across various levels of measurement error. Notably, our covariance-oblivious approach nearly matches the efficiency of methods that assume known error variance.
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误测高维控制变量治疗效果的双重/偏差 CoCoLASSO
我们提出了双/去偏凸条件 LASSO(Double/DebiasedCoCoLASSO),它扩展了双/去偏机器学习框架,以适应测量误差协变量。我们的主要贡献有三点:(1) 我们构建了一个在测量误差条件下仍然有效的奈曼正交得分函数,并加入了一个偏差修正项,以考虑误差引起的相关性。(2) 我们提出了测量误差方差的矩估计方法,无需事先了解误差协方差结构即可实施。(3) 在一般条件下,允许协变量的数量和测量误差的大小随着样本量的增加而增加,我们建立了估计器的($\sqrt{N}$)一致性和渐近正态性。我们的理论结果证明了该估计器在考虑测量误差的正则化高维估计器类别中的效率。蒙特卡罗模拟证实了我们的渐近理论,并说明了估计器在各种测量误差水平下的稳健表现。值得注意的是,我们的不考虑方差的方法几乎可以与假定已知误差方差的方法的效率相媲美。
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