The size of a Markovian SIR epidemic given only removal data

Pub Date : 2023-03-21 DOI:10.1017/apr.2022.58
F. Ball, P. Neal
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Abstract

Abstract During an epidemic outbreak, typically only partial information about the outbreak is known. A common scenario is that the infection times of individuals are unknown, but individuals, on displaying symptoms, are identified as infectious and removed from the population. We study the distribution of the number of infectives given only the times of removals in a Markovian susceptible–infectious–removed (SIR) epidemic. Primary interest is in the initial stages of the epidemic process, where a branching (birth–death) process approximation is applicable. We show that the number of individuals alive in a time-inhomogeneous birth–death process at time $t \geq 0$ , given only death times up to and including time t, is a mixture of negative binomial distributions, with the number of mixing components depending on the total number of deaths, and the mixing weights depending upon the inter-arrival times of the deaths. We further consider the extension to the case where some deaths are unobserved. We also discuss the application of the results to control measures and statistical inference.
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仅给出移除数据的马尔可夫SIR流行病的大小
在流行病爆发期间,通常只知道有关爆发的部分信息。一种常见的情况是,个体的感染时间未知,但个体一旦出现症状,就被确定为具有传染性,并被从人群中清除。我们研究了马尔可夫易感感染清除(SIR)流行病中仅给定清除次数的感染数分布。主要关注的是流行病过程的初始阶段,其中分支(出生-死亡)过程近似适用。我们表明,在时间为$t \geq 0$的时间非均匀出生-死亡过程中,仅给定死亡时间达到并包括时间t,存活的个体数是负二项分布的混合物,混合成分的数量取决于死亡总数,混合权重取决于死亡的间隔到达时间。我们进一步考虑将范围扩大到未观察到某些死亡的情况。我们还讨论了结果在控制措施和统计推断中的应用。
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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