A Rule-Based Epidemiological Modelling Framework
Abstract
Motivated by chemical reaction rules, we introduce a rule-based epidemiological framework for the systematic mathematical modelling of future pandemics. Here we stress that we do not have a specific model in mind, but a whole collection of models which can be transformed into each other, or represent different aspects of a pandemic, and these aspects can change during the course of the emergency, as happened during the Covid-19 pandemic. As conditions for outbreaks in the modern world change on different time-scales, some rapidly, epidemiology has few 'laws', besides perhaps the fundamental infection process described by Kermack-McKendrick. Each single of our variety of models, called framework, is based on a mathematical formulation that we call a rule-based system. They have several advantages, for example that they can be both interpreted stochastically and deterministically, without changing the model structure. Rule-based systems should be easier to communicate to non-specialists, when compared to differential equations. Due to their combinatorial nature, the rule-based model framework we propose is ideal for systematic mathematical modelling, systematic links to statistics, data analysis in general and also machine learning leading to artificial intelligence.
Cite
@article{arxiv.2111.07336,
title = {A Rule-Based Epidemiological Modelling Framework},
author = {David Alonso and Steffen Bauer and Markus Kirkilionis and Lisa Maria Kreusser and Luca Sbano},
journal= {arXiv preprint arXiv:2111.07336},
year = {2024}
}
Comments
67 pages, 23 figures