| openaire: EC/H2020/871042/EU//SoBigData-PlusPlusThe shocking severity of the Covid-19 pandemic has woken up an unprecedented interest and accelerated effort of the scientific community to model and forecast epidemic spreading to find ways to control it regionally and between regions. Here we present a model that in addition to describing the dynamics of epidemic spreading with the traditional compartmental approach takes into account the social behaviour of the population distributed over a geographical region. The region to be modelled is defined as a two-dimensional grid of cells, in which each cell is weighted with the population density. In each cell a compartmental SEIRS system of delay difference equations is used to simulate the lo...
An epidemic multi-group model formed by interconnected SEIR-like structures is formulated and used f...
Infectious disease outbreaks can emerge without warning and spread rapidly through a population. The...
The spatiotemporal propagation patterns of recent infectious diseases, originated as localized epide...
This Master Thesis proposes a new mathematical method for modelling infectious diseases that spread ...
Epidemic spread models are useful tools to study the spread and the effectiveness of the interventio...
A new two-parameter kinetic equation model is proposed to describe the spatial spread of the virus i...
International audienceMotivated by the COVID-19 pandemic, we introduce a mathematical description of...
We formulate and implement a dynamical multi-group model to describe the diffusion of COVID-19 epide...
In this paper, we propose a Boltzmann-type kinetic model of the spreading of an infectious disease o...
International audienceBACKGROUND: Determining the pandemic potential of an emerging infectious disea...
One of the biggest threats to humanity are pandemics. In our global society they can rage around the...
Pandemics can cause immense disruption and damage to communities and societies. Thus far, modeling o...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
Pandemics can cause immense disruption and damage to communities and societies. Thus far, modeling o...
Background: Determining the pandemic potential of an emerging infectious disease and how it depends ...
An epidemic multi-group model formed by interconnected SEIR-like structures is formulated and used f...
Infectious disease outbreaks can emerge without warning and spread rapidly through a population. The...
The spatiotemporal propagation patterns of recent infectious diseases, originated as localized epide...
This Master Thesis proposes a new mathematical method for modelling infectious diseases that spread ...
Epidemic spread models are useful tools to study the spread and the effectiveness of the interventio...
A new two-parameter kinetic equation model is proposed to describe the spatial spread of the virus i...
International audienceMotivated by the COVID-19 pandemic, we introduce a mathematical description of...
We formulate and implement a dynamical multi-group model to describe the diffusion of COVID-19 epide...
In this paper, we propose a Boltzmann-type kinetic model of the spreading of an infectious disease o...
International audienceBACKGROUND: Determining the pandemic potential of an emerging infectious disea...
One of the biggest threats to humanity are pandemics. In our global society they can rage around the...
Pandemics can cause immense disruption and damage to communities and societies. Thus far, modeling o...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
Pandemics can cause immense disruption and damage to communities and societies. Thus far, modeling o...
Background: Determining the pandemic potential of an emerging infectious disease and how it depends ...
An epidemic multi-group model formed by interconnected SEIR-like structures is formulated and used f...
Infectious disease outbreaks can emerge without warning and spread rapidly through a population. The...
The spatiotemporal propagation patterns of recent infectious diseases, originated as localized epide...