🌙

扩散驱动多类型流行病模型的贝叶斯分析及其在COVID-19中的应用

Bayesian analysis of diffusion-driven multi-type epidemic models with application to COVID-19

Journal of the Royal Statistical Society. Series A: Statistics in Society · 2025
被引 0
ABS 3

中文导读

提出一种贝叶斯证据综合方法,利用每日死亡数据重建不同年龄组COVID-19传播率的动态变化,模型考虑了公共卫生干预和行为变化的影响,并在英国、希腊和奥地利数据上验证。

Abstract

Abstract We consider a flexible Bayesian evidence synthesis approach to model the age-specific transmission dynamics of COVID-19 based on daily mortality counts. The temporal evolution of transmission rates in populations containing multiple types of individuals is reconstructed via an appropriate dimension-reduction formulation driven by independent diffusion processes. A suitably tailored compartmental model is used to learn the latent counts of infection, accounting for fluctuations in transmission influenced by public health interventions and changes in human behaviour. The model is fitted to freely available COVID-19 data sources from the UK, Greece, and Austria and validated using a large-scale prevalence survey in England. In particular, we demonstrate how model expansion can facilitate evidence reconciliation at a latent level. The code implementing this work is made freely available via the Bernadette R package.

贝叶斯统计传染病建模COVID-19年龄特异性传播动力学