The variance of causal effect estimators for binary v-structures

IF 1.7 4区医学 Q2 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Journal of Causal Inference Pub Date : 2020-04-20 DOI:10.1515/jci-2021-0025

Jack Kuipers, G. Moffa

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引用次数: 2

Abstract

Abstract Adjusting for covariates is a well-established method to estimate the total causal effect of an exposure variable on an outcome of interest. Depending on the causal structure of the mechanism under study, there may be different adjustment sets, equally valid from a theoretical perspective, leading to identical causal effects. However, in practice, with finite data, estimators built on different sets may display different precisions. To investigate the extent of this variability, we consider the simplest non-trivial non-linear model of a v-structure on three nodes for binary data. We explicitly compute and compare the variance of the two possible different causal estimators. Further, by going beyond leading-order asymptotics, we show that there are parameter regimes where the set with the asymptotically optimal variance does depend on the edge coefficients, a result that is not captured by the recent leading-order developments for general causal models. As a practical consequence, the adjustment set selection needs to account for the relative magnitude of the relationships between variables with respect to the sample size and cannot rely on purely graphical criteria.

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二元v型结构的因果效应估计量的方差

摘要协变量调整是一种公认的估计暴露变量对感兴趣的结果的总因果效应的方法。根据所研究机制的因果结构，可能存在不同的调整集，从理论角度来看，这些调整集同样有效，从而导致相同的因果效应。然而，在实践中，对于有限的数据，建立在不同集合上的估计器可能会显示不同的精度。为了研究这种可变性的程度，我们考虑了二进制数据的三个节点上的v结构的最简单的非平凡非线性模型。我们显式地计算和比较两种可能不同的因果估计量的方差。此外，通过超越首阶渐近，我们表明存在参数区域，其中具有渐近最优方差的集合确实依赖于边缘系数，这一结果没有被最近的一般因果模型的首阶发展所捕获。作为一个实际的结果，调整集的选择需要考虑变量之间相对于样本量的关系的相对大小，不能纯粹依赖于图形标准。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Causal Inference Decision Sciences-Statistics, Probability and Uncertainty

CiteScore

1.90

自引率

14.30%

发文量

审稿时长

86 weeks

期刊介绍： Journal of Causal Inference (JCI) publishes papers on theoretical and applied causal research across the range of academic disciplines that use quantitative tools to study causality.