preading processes represent a very efficient tool to investigate the structural properties of networks and the relative importance of their constituents, and have been widely used to this aim in static networks. Here we consider simple disease spreading processes on empirical time-varying networks of contacts between individuals, and compare the effect of several immunization strategies on these processes. An immunization strategy is defined as the choice of a set of nodes (individuals) who cannot catch nor transmit the disease. This choice is performed according to a certain ranking of the nodes of the contact network
In many real-world complex systems, individuals have many kinds of interactions among them, suggesti...
Well-known immunization strategies, based on degree centrality, betweenness centrality, or closeness...
Decreasing the number of people who must be vaccinated to immunize a community against an infectious...
preading processes represent a very efficient tool to investigate the structural properties of netwo...
Immunization strategies on complex networks are effective methods to control the spreading dynamics ...
With the ubiquity of smart phones, wearable equipment, and wireless sensors, the topologies of netw...
We study the behavior of epidemic spreading in networks, and, in particular, scale free networks. We...
International audienceThe vast majority of strategies aimed at controlling contagion processes on ne...
Transmission of infectious diseases among populations can be modelled as contagion processes on cont...
The vast majority of strategies aimed at controlling contagion processes on networks consider a time...
How to find the effective approach of immunizing a population is one open question in the research o...
Epidemic evolution on complex networks strongly depends on their topology and the infection dynamica...
We consider the spread of infectious disease through contact networks of Configuration Model type. W...
The high incidence of emerging infectious diseases has highlighted the importance of effective immun...
Up to now, immunization of disease propagation has attracted great attention in both theoretical and...
In many real-world complex systems, individuals have many kinds of interactions among them, suggesti...
Well-known immunization strategies, based on degree centrality, betweenness centrality, or closeness...
Decreasing the number of people who must be vaccinated to immunize a community against an infectious...
preading processes represent a very efficient tool to investigate the structural properties of netwo...
Immunization strategies on complex networks are effective methods to control the spreading dynamics ...
With the ubiquity of smart phones, wearable equipment, and wireless sensors, the topologies of netw...
We study the behavior of epidemic spreading in networks, and, in particular, scale free networks. We...
International audienceThe vast majority of strategies aimed at controlling contagion processes on ne...
Transmission of infectious diseases among populations can be modelled as contagion processes on cont...
The vast majority of strategies aimed at controlling contagion processes on networks consider a time...
How to find the effective approach of immunizing a population is one open question in the research o...
Epidemic evolution on complex networks strongly depends on their topology and the infection dynamica...
We consider the spread of infectious disease through contact networks of Configuration Model type. W...
The high incidence of emerging infectious diseases has highlighted the importance of effective immun...
Up to now, immunization of disease propagation has attracted great attention in both theoretical and...
In many real-world complex systems, individuals have many kinds of interactions among them, suggesti...
Well-known immunization strategies, based on degree centrality, betweenness centrality, or closeness...
Decreasing the number of people who must be vaccinated to immunize a community against an infectious...