This paper presents a compact pairwise model that describes the spread of multi-stage epidemics on networks. The multi-stage model corresponds to a gamma-distributed infectious period which interpolates between the classical Markovian models with exponentially distributed infectious period and epidemics with a constant infectious period. We show how the compact approach leads to a system of equations whose size is independent of the range of node degrees, thus significantly reducing the complexity of the model. Network clustering is incorporated into the model to provide a more accurate representation of realistic contact networks, and the accuracy of proposed closures is analysed for different levels of clustering and number of infection s...
The spread of infectious diseases fundamentally depends on the pattern of contacts between individua...
Networks have become an indispensable tool in modelling infectious diseases, with the structure of e...
We present a thorough inspection of the dynamical behavior of epidemic phenomena in populations with...
Realistic human contact networks capable of spreading infectious disease, for example studied in soc...
Pairwise models are used widely to model epidemic spread on networks. These include the modelling of...
In this paper we provide the derivation of a super compact pairwise model with only 4 equations in t...
The epidemic threshold is probably the most studied quantity in the modelling of epidemics on networ...
The epidemic threshold is probably the most studied quantity in the modelling of epidemics on networ...
This paper investigates the dynamics of infectious diseases with a nonexponentially distributed infe...
Networks provide a mathematically rich framework to represent social contacts sufficient for the tra...
There has been much recent interest in modelling epidemics on networks, particularly in the presence...
The duration, type and structure of connections between individuals in real-world populations play a...
Erik M. Volz is with University of Michigan, Joel C. Miller is with Harvard University and the Natio...
We investigate the effects of heterogeneous and clustered contact patterns on the timescale and fina...
Infectious diseases typically spread over a contact network with millions of individuals, whose shee...
The spread of infectious diseases fundamentally depends on the pattern of contacts between individua...
Networks have become an indispensable tool in modelling infectious diseases, with the structure of e...
We present a thorough inspection of the dynamical behavior of epidemic phenomena in populations with...
Realistic human contact networks capable of spreading infectious disease, for example studied in soc...
Pairwise models are used widely to model epidemic spread on networks. These include the modelling of...
In this paper we provide the derivation of a super compact pairwise model with only 4 equations in t...
The epidemic threshold is probably the most studied quantity in the modelling of epidemics on networ...
The epidemic threshold is probably the most studied quantity in the modelling of epidemics on networ...
This paper investigates the dynamics of infectious diseases with a nonexponentially distributed infe...
Networks provide a mathematically rich framework to represent social contacts sufficient for the tra...
There has been much recent interest in modelling epidemics on networks, particularly in the presence...
The duration, type and structure of connections between individuals in real-world populations play a...
Erik M. Volz is with University of Michigan, Joel C. Miller is with Harvard University and the Natio...
We investigate the effects of heterogeneous and clustered contact patterns on the timescale and fina...
Infectious diseases typically spread over a contact network with millions of individuals, whose shee...
The spread of infectious diseases fundamentally depends on the pattern of contacts between individua...
Networks have become an indispensable tool in modelling infectious diseases, with the structure of e...
We present a thorough inspection of the dynamical behavior of epidemic phenomena in populations with...