Data-assimilation and state estimation for contact-based spreading processes using the ensemble kalman filter: Application to COVID-19

A Schaum; R Bernal-Jaquez; L Alarcon Ramos

doi:10.1016/j.chaos.2022.111887

Data-assimilation and state estimation for contact-based spreading processes using the ensemble kalman filter: Application to COVID-19

Chaos Solitons Fractals. 2022 Apr:157:111887. doi: 10.1016/j.chaos.2022.111887. Epub 2022 Mar 11.

Authors

A Schaum¹, R Bernal-Jaquez², L Alarcon Ramos^{3

2}

Affiliations

¹ Chair of Automatic Control, Kiel University, Kiel, Germany.
² Departamento de Matematicas Aplicadas y Sistemas, Universidad Autonoma Metropolitana - Cuajimalpa, Mexico-City, Mexico.
³ Posgrado de Ciencias Naturales e Ingenieria, Universidad Autonoma Metropolitana - Cuajimalpa, Mexico-City, Mexico.

Abstract

The main aim of the present paper is threefold. First, it aims at presenting an extended contact-based model for the description of the spread of contagious diseases in complex networks with consideration of asymptomatic evolutions. Second, it presents a parametrization method of the considered model, including validation with data from the actual spread of COVID-19 in Germany, Mexico and the United States of America. Third, it aims at showcasing the fruitful combination of contact-based network spreading models with a modern state estimation and filtering technique to (i) enable real-time monitoring schemes, and (ii) efficiently deal with dimensionality and stochastic uncertainties. The network model is based on an interpretation of the states of the nodes as (statistical) probability densities samples, where nodes can represent individuals, groups or communities, cities or countries, enabling a wide field of application of the presented approach.

Keywords: COVID-19; Complex networks; Data–assimilation; Ensemble kalman filter; Epidemic spreading; Model identification.