The dynamic nature of contact patterns creates diverse temporal structures. In particular, empirical studies have shown that contact patterns follow heterogeneous inter-event time intervals, meaning that periods of high activity are followed by long periods of inactivity. To investigate the impact of these heterogeneities in the spread of infection from a theoretical perspective, we propose a stochastic model to generate temporal networks where vertices make instantaneous contacts following heterogeneous inter-event intervals, and may leave and enter the system. We study how these properties affect the prevalence of an infection and estimate , the number of secondary infections of an infectious individual in a completely susceptible populat...
In real-world networks of disease transmission, the incidence of infection among individuals conform...
Human societies are organized in complex webs that are constantly reshaped by a social dynamic which...
Many progresses in the understanding of epidemic spreading models have been obtained thanks to numer...
The dynamic nature of contact patterns creates diverse temporal structures. In particular, empirical...
The dynamic nature of contact patterns creates diverse temporal structures. In particular, empirical...
We present a thorough inspection of the dynamical behavior of epidemic phenomena in populations with...
Development of sensor technologies and the prevalence of electronic communication services provide u...
The dynamics of contact networks and epidemics of infectious diseases often occur on comparable time...
Data of physical contacts and face-to-face communications suggest temporally varying networks as the...
Mathematical models of infectious disease are important tools for understanding large-scale patterns...
In many populations, the patterns of potentially infectious contacts are transients that can be desc...
The spread of infectious diseases fundamentally depends on the pattern of contacts between individua...
Erik M. Volz is with University of Michigan, Joel C. Miller is with Harvard University and the Natio...
preading processes represent a very efficient tool to investigate the structural properties of netwo...
Realistic human contact networks capable of spreading infectious disease, for example studied in soc...
In real-world networks of disease transmission, the incidence of infection among individuals conform...
Human societies are organized in complex webs that are constantly reshaped by a social dynamic which...
Many progresses in the understanding of epidemic spreading models have been obtained thanks to numer...
The dynamic nature of contact patterns creates diverse temporal structures. In particular, empirical...
The dynamic nature of contact patterns creates diverse temporal structures. In particular, empirical...
We present a thorough inspection of the dynamical behavior of epidemic phenomena in populations with...
Development of sensor technologies and the prevalence of electronic communication services provide u...
The dynamics of contact networks and epidemics of infectious diseases often occur on comparable time...
Data of physical contacts and face-to-face communications suggest temporally varying networks as the...
Mathematical models of infectious disease are important tools for understanding large-scale patterns...
In many populations, the patterns of potentially infectious contacts are transients that can be desc...
The spread of infectious diseases fundamentally depends on the pattern of contacts between individua...
Erik M. Volz is with University of Michigan, Joel C. Miller is with Harvard University and the Natio...
preading processes represent a very efficient tool to investigate the structural properties of netwo...
Realistic human contact networks capable of spreading infectious disease, for example studied in soc...
In real-world networks of disease transmission, the incidence of infection among individuals conform...
Human societies are organized in complex webs that are constantly reshaped by a social dynamic which...
Many progresses in the understanding of epidemic spreading models have been obtained thanks to numer...