We consider the development of hyperbolic transport models for the propagation in space of an epidemic phenomenon described by a classical compartmental dynamics. The model is based on a kinetic description at discrete velocities of the spatial movement and interactions of a population of susceptible, infected and recovered individuals. Thanks to this, the unphysical feature of instantaneous diffusive effects, which is typical of parabolic models, is removed. In particular, we formally show how such reaction-diffusion models are recovered in an appropriate diffusive limit. The kinetic transport model is therefore considered within a spatial network, characterizing different places such as villages, cities, countries, etc. The transmission c...
The outbreak of COVID-19, beginning in 2019 and continuing through the time of writing, has led to r...
We study the qualitative properties of a spatial diffusive heterogeneous SIR model, that appears in ...
Diffusion processes on network systems are ubiquitous. An epidemic outbreak in an interconnected pop...
We consider the development of hyperbolic transport models for the propagation in space of an epidem...
The importance of spatial networks in the spread of an epidemic is an essential aspect in modeling t...
In this paper, we propose a novel space-dependent multiscale model for the spread of infectious dise...
In this paper, we propose a Boltzmann-type kinetic model of the spreading of an infectious disease o...
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 generalize a recently proposed model for cholera epidemics that accounts for local communities of...
In this survey we report some recent results in the mathematical modelling of epidemic phenomena thr...
Abstract. Human mobility is a key factor in spatial disease dynamics and related phenomena. In compu...
We introduce a mathematical description of the impact of the number of daily contacts in the spread ...
The outbreak of COVID-19, beginning in 2019 and continuing through the time of writing, has led to r...
We study the qualitative properties of a spatial diffusive heterogeneous SIR model, that appears in ...
Diffusion processes on network systems are ubiquitous. An epidemic outbreak in an interconnected pop...
We consider the development of hyperbolic transport models for the propagation in space of an epidem...
The importance of spatial networks in the spread of an epidemic is an essential aspect in modeling t...
In this paper, we propose a novel space-dependent multiscale model for the spread of infectious dise...
In this paper, we propose a Boltzmann-type kinetic model of the spreading of an infectious disease o...
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 generalize a recently proposed model for cholera epidemics that accounts for local communities of...
In this survey we report some recent results in the mathematical modelling of epidemic phenomena thr...
Abstract. Human mobility is a key factor in spatial disease dynamics and related phenomena. In compu...
We introduce a mathematical description of the impact of the number of daily contacts in the spread ...
The outbreak of COVID-19, beginning in 2019 and continuing through the time of writing, has led to r...
We study the qualitative properties of a spatial diffusive heterogeneous SIR model, that appears in ...
Diffusion processes on network systems are ubiquitous. An epidemic outbreak in an interconnected pop...