Bayesian poisson regression tensor train decomposition model for learning mortality pattern changes during COVID-19 pandemic
Additional information
Type
Journal Article
Year
2024
Language
English
Abstract
COVID-19 has led to excess deaths around the world. However, the impact on mortality rates from other causes of death during this time remains unclear. To understand the broader impact of COVID-19 on other causes of death, we analyze Italian official data covering monthly mortality counts from January 2015 to December 2020. To handle the high-dimensional nature of the data, we developed a model that combines Poisson regression with tensor train decomposition to explore the lower-dimensional residual structure of the data. Our Bayesian approach incorporates prior information on model parameters and utilizes an efficient Metropolis-Hastings within Gibbs algorithm for posterior inference. Simulation studies were conducted to validate our approach. Our method not only identifies differential effects of interventions on cause-specific mortality rates through Poisson regression but also provides insights into the relationship between COVID-19 and other causes of death. Additionally, it uncovers latent classes related to demographic characteristics, temporal patterns, and causes of death.
Keywords
Bayesian inference, COVID-19, Mortality, Tensor decomposition
Journal
Journal of applied statistics
Pages (or article number)
1–23
Diffusion
License
CC BY
Visibility
Public
Status open access
Hybrid
