The outbreak of COVID-19, beginning in 2019 and continuing through the time of writing, has led to renewed interest in the mathematical modeling of infectious disease. Recent works have focused on partial differential equation (PDE) models, particularly reaction–diffusion models, able to describe the progression of an epidemic in both space and time. These studies have shown generally promising results in describing and predicting COVID-19 progression. However, people often travel long distances in short periods of time, leading to nonlocal transmission of the disease. Such contagion dynamics are not well-represented by diffusion alone. In contrast, ordinary differential equation (ODE) models may easily account for this behavior by consider...
We present a new mathematical model to investigate the spatial spread of an infectious disease. The ...
This article investigate a nonlocal reaction-diffusion system of equations modeling virus distributi...
International audienceWe propose a new model that describes the dynamics of epidemic spreading on co...
The outbreak of COVID-19, beginning in 2019 and continuing through the time of writing, has led to r...
In this paper, we propose a novel space-dependent multiscale model for the spread of infectious dise...
| openaire: EC/H2020/871042/EU//SoBigData-PlusPlusThe shocking severity of the Covid-19 pandemic has...
The outbreak of COVID-19 in 2020 has led to a surge in interest in the mathematical modeling of infe...
In this paper, we propose a Boltzmann-type kinetic model of the spreading of an infectious disease o...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
We construct and analyze a nonlinear reaction-diffusion epidemiology model consisting of two integra...
An integrodifference equation model is introduced to study the spatial spread of epidemics through p...
We generalize a recently proposed model for cholera epidemics that accounts for local communities of...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
We present a new mathematical model to investigate the spatial spread of an infectious disease. The ...
This article investigate a nonlocal reaction-diffusion system of equations modeling virus distributi...
International audienceWe propose a new model that describes the dynamics of epidemic spreading on co...
The outbreak of COVID-19, beginning in 2019 and continuing through the time of writing, has led to r...
In this paper, we propose a novel space-dependent multiscale model for the spread of infectious dise...
| openaire: EC/H2020/871042/EU//SoBigData-PlusPlusThe shocking severity of the Covid-19 pandemic has...
The outbreak of COVID-19 in 2020 has led to a surge in interest in the mathematical modeling of infe...
In this paper, we propose a Boltzmann-type kinetic model of the spreading of an infectious disease o...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
We construct and analyze a nonlinear reaction-diffusion epidemiology model consisting of two integra...
An integrodifference equation model is introduced to study the spatial spread of epidemics through p...
We generalize a recently proposed model for cholera epidemics that accounts for local communities of...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
We investigate a model for spatial epidemics explicitly taking into account bidirectional movements ...
We present a new mathematical model to investigate the spatial spread of an infectious disease. The ...
This article investigate a nonlocal reaction-diffusion system of equations modeling virus distributi...
International audienceWe propose a new model that describes the dynamics of epidemic spreading on co...