Most real networks are characterized by connectivity patterns that evolve in time following complex, non-Markovian, dynamics. Here we investigate the impact of this ubiquitous feature by studying the Susceptible-Infected-Recovered (SIR) and Susceptible-Infected-Susceptible (SIS) epidemic models on activity driven networks with and without memory (i.e., Markovian and non-Markovian). We find that memory inhibits the spreading process in SIR models by shifting the epidemic threshold to larger values and reducing the final fraction of recovered nodes. On the contrary, in SIS processes memory reduces the epidemic threshold and, for a wide range of disease parameters, increases the fraction of nodes affected by the disease in the endemic state. T...
Epidemic models are increasingly applied in real-world networks to understand various kinds of diffu...
Susceptible-Infected-Susceptible (SIS) model is commonly used to describe the spreading of virus on ...
Master's thesis in Mathematics and PhysicsThe spread of a virus or the outbreak of an epidemic are n...
Most real networks are characterized by connectivity patterns that evolve in time following complex,...
Most real networks are characterized by connectivity patterns that evolve in time following complex,...
Time-varying network topologies can deeply influence dynamical processes mediated by them. Memory ef...
The structural properties of temporal networks often influence the dynamical processes that occur on...
Waiting times between two consecutive infection and recovery events in spreading processes are often...
We investigate the effects of modular and temporal connectivity patterns on epidemic spreading. To t...
Data of physical contacts and face-to-face communications suggest temporally varying networks as the...
Epidemic propagation on complex networks has been widely investigated, mostly with invariant paramet...
Many biological, social and man-made systems are better described in terms of temporal networks, i.e...
Activity-driven networks (ADNs) have recently emerged as a powerful paradigm to study the temporal e...
Empirical temporal networks display strong heterogeneities in their dynamics, which profoundly affec...
International audienceMany progresses in the understanding of epidemic spreading models have been ob...
Epidemic models are increasingly applied in real-world networks to understand various kinds of diffu...
Susceptible-Infected-Susceptible (SIS) model is commonly used to describe the spreading of virus on ...
Master's thesis in Mathematics and PhysicsThe spread of a virus or the outbreak of an epidemic are n...
Most real networks are characterized by connectivity patterns that evolve in time following complex,...
Most real networks are characterized by connectivity patterns that evolve in time following complex,...
Time-varying network topologies can deeply influence dynamical processes mediated by them. Memory ef...
The structural properties of temporal networks often influence the dynamical processes that occur on...
Waiting times between two consecutive infection and recovery events in spreading processes are often...
We investigate the effects of modular and temporal connectivity patterns on epidemic spreading. To t...
Data of physical contacts and face-to-face communications suggest temporally varying networks as the...
Epidemic propagation on complex networks has been widely investigated, mostly with invariant paramet...
Many biological, social and man-made systems are better described in terms of temporal networks, i.e...
Activity-driven networks (ADNs) have recently emerged as a powerful paradigm to study the temporal e...
Empirical temporal networks display strong heterogeneities in their dynamics, which profoundly affec...
International audienceMany progresses in the understanding of epidemic spreading models have been ob...
Epidemic models are increasingly applied in real-world networks to understand various kinds of diffu...
Susceptible-Infected-Susceptible (SIS) model is commonly used to describe the spreading of virus on ...
Master's thesis in Mathematics and PhysicsThe spread of a virus or the outbreak of an epidemic are n...