Add to ORKGWe consider the spread of an infectious disease on a heterogeneous metapopulation defined by any (correlated or uncorrelated) network. The infection evolves under transmission, recovery and migration mechanisms. We study some spectral properties of a connectivity matrix arising from the continuous-time equations of the model. In particular we show that the classical sufficient condition of instability for the disease-free equilibrium, well known for the particular case of uncorrelated networks, works also for the general case. We give also an alternative condition that yields a more accurate estimation of the epidemic threshold for correlated (either assortative or dissortative) networks.Peer Reviewe
Abstract Given a network of who-contacts-whom or who-links-to-whom, will a contagious virus/product/...
Most real-world networks are not isolated. In order to function fully, they are interconnected with ...
The global behaviour of the compact pairwise approximation of SIS epidemic propagation on networks i...
We consider the spread of an infectious disease on a heterogeneous metapopulation defined by any (co...
We consider the spread of an infectious disease on a heterogeneous metapopulation defined ...
We study a dynamical model of epidemic spreading on complex networks in which there are explicit cor...
The time variation of contacts in a networked system may fundamentally alter the properties of sprea...
International audienceThe time variation of contacts in a networked system may fundamentally alter t...
We consider SIS models for the spread of epidemics. In particular we consider the so called nonhomog...
In this thesis we analyze the relationship between epidemiology and network theory, starting from th...
Since the Susceptible-Infected-Susceptible (SIS) epidemic threshold is not precisely defined in spit...
AbstractWe study the uncorrelated Susceptible-Infected-Susceptible (SIS) model in epidemiology on to...
We present a thorough inspection of the dynamical behavior of epidemic phenomena in populations with...
We study the threshold of epidemic models in quenched networks with degree distribution given by a p...
It is well known that the outbreak of infectious diseases is affected by the diffusion of the infect...
Abstract Given a network of who-contacts-whom or who-links-to-whom, will a contagious virus/product/...
Most real-world networks are not isolated. In order to function fully, they are interconnected with ...
The global behaviour of the compact pairwise approximation of SIS epidemic propagation on networks i...
We consider the spread of an infectious disease on a heterogeneous metapopulation defined by any (co...
We consider the spread of an infectious disease on a heterogeneous metapopulation defined ...
We study a dynamical model of epidemic spreading on complex networks in which there are explicit cor...
The time variation of contacts in a networked system may fundamentally alter the properties of sprea...
International audienceThe time variation of contacts in a networked system may fundamentally alter t...
We consider SIS models for the spread of epidemics. In particular we consider the so called nonhomog...
In this thesis we analyze the relationship between epidemiology and network theory, starting from th...
Since the Susceptible-Infected-Susceptible (SIS) epidemic threshold is not precisely defined in spit...
AbstractWe study the uncorrelated Susceptible-Infected-Susceptible (SIS) model in epidemiology on to...
We present a thorough inspection of the dynamical behavior of epidemic phenomena in populations with...
We study the threshold of epidemic models in quenched networks with degree distribution given by a p...
It is well known that the outbreak of infectious diseases is affected by the diffusion of the infect...
Abstract Given a network of who-contacts-whom or who-links-to-whom, will a contagious virus/product/...
Most real-world networks are not isolated. In order to function fully, they are interconnected with ...
The global behaviour of the compact pairwise approximation of SIS epidemic propagation on networks i...