Estimating the Reciprocal of a Binomial Proportion

IF 1.7 3区数学 Q1 STATISTICS & PROBABILITY

International Statistical Review Pub Date : 2023-03-20 DOI:10.1111/insr.12539

Jiajin Wei, Ping He, Tiejun Tong

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Abstract

The binomial proportion is a classic parameter with many applications and has also been extensively studied in the literature. By contrast, the reciprocal of the binomial proportion, or the inverse proportion, is often overlooked, even though it also plays an important role in various fields. To estimate the inverse proportion, the maximum likelihood method fails to yield a valid estimate when there is no successful event in the Bernoulli trials. To overcome this zero-event problem, several methods have been introduced in the previous literature. Yet to the best of our knowledge, there is little work on a theoretical comparison of the existing estimators. In this paper, we first review some commonly used estimators for the inverse proportion, study their asymptotic properties, and then develop a new estimator that aims to eliminate the estimation bias. We further conduct Monte Carlo simulations to compare the finite sample performance of the existing and new estimators, and also apply them to handle the zero-event problem in a meta-analysis of COVID-19 data for assessing the relative risks of physical distancing on the infection of coronavirus.

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估计二项式比例的倒数

二项比例作为二项分布中的一个经典参数，由于其广泛的应用，在文献中得到了很好的研究。相比之下，二项比例的倒数，也被称为反比，尽管它在临床研究和随机抽样等各个领域也发挥着重要作用，但往往被忽视。反比的极大似然估计量存在零事件问题，为了克服这个问题，文献中已经发展了一些替代方法。然而，很少有工作解决现有估计器的最优性，以及它们的实际性能比较。受此启发，我们建议进一步推进文献通过开发一个最优的估计反比的收缩估计族。进一步推导出不同设置下的最佳收缩参数的显式和近似公式。仿真研究表明，在大多数实际设置中，我们的新估计器的性能比现有的竞争对手表现得更好，或者同样好。最后，为了说明我们的新方法的实用性，我们还重新审视了最近对COVID-19数据的荟萃分析，以评估身体距离对冠状病毒感染的相对风险，其中七项研究中有六项遇到了零事件问题。

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

International Statistical Review 数学-统计学与概率论

CiteScore

4.30

自引率

5.00%

发文量

审稿时长

>12 weeks

期刊介绍： International Statistical Review is the flagship journal of the International Statistical Institute (ISI) and of its family of Associations. It publishes papers of broad and general interest in statistics and probability. The term Review is to be interpreted broadly. The types of papers that are suitable for publication include (but are not limited to) the following: reviews/surveys of significant developments in theory, methodology, statistical computing and graphics, statistical education, and application areas; tutorials on important topics; expository papers on emerging areas of research or application; papers describing new developments and/or challenges in relevant areas; papers addressing foundational issues; papers on the history of statistics and probability; white papers on topics of importance to the profession or society; and historical assessment of seminal papers in the field and their impact.