Recently, research that focuses on the rigorous understanding of the relation between simulation and/or exact models on graphs and approximate counterparts has gained lots of momentum. This includes revisiting the performance of classic pairwise models with closures at the level of pairs and/or triples as well as effective-degree-type models and those based on the probability generating function formalism. In this paper, for a fully connected graph and the simple SIS (susceptible-infected-susceptible) epidemic model, a novel closure is introduced. This is done via using the equations for the moments of the distribution describing the number of infecteds at all times combined with the empirical observations that this is well described/approx...
We present the generalised mean-field and pairwise models for non-Markovian epidemics on networks wi...
We extrapolate from the exact master equations of epidemic dynamics on fully connected graphs to non...
AbstractUnderstanding the dynamics of spread of infectious diseases between individuals is essential...
Many if not all models of disease transmission on networks can be linked to the exact state-based Ma...
Network models of disease spread play an important role in elucidating the impact of long-lasting in...
The message passing approach of Karrer and Newman [Phys. Rev. E 82, 016101 (2010)] is an exact and p...
We consider Markovian susceptible-infectious-removed (SIR) dynamics on time-invariant weighted conta...
We consider Markovian susceptible-infectious-removed (SIR) dynamics on time-invariant weighted conta...
Moment closure approximations are used to provide analytic approximations to nonlinear stochastic mo...
AbstractThe relationship between system-level and subsystem-level master equations is investigated a...
Understanding the dynamics of spread of infectious diseases between individuals is essential for for...
In this paper we provide the derivation of a super compact pairwise model with only 4 equations in t...
In the study of dynamics on networks, moment closure is a commonly used method to obtain low-dimensi...
Abstract In this article, we develop two independent and new approaches to model epidemic spread in ...
The dynamics of disease transmission strongly depends on the properties of the population contact ne...
We present the generalised mean-field and pairwise models for non-Markovian epidemics on networks wi...
We extrapolate from the exact master equations of epidemic dynamics on fully connected graphs to non...
AbstractUnderstanding the dynamics of spread of infectious diseases between individuals is essential...
Many if not all models of disease transmission on networks can be linked to the exact state-based Ma...
Network models of disease spread play an important role in elucidating the impact of long-lasting in...
The message passing approach of Karrer and Newman [Phys. Rev. E 82, 016101 (2010)] is an exact and p...
We consider Markovian susceptible-infectious-removed (SIR) dynamics on time-invariant weighted conta...
We consider Markovian susceptible-infectious-removed (SIR) dynamics on time-invariant weighted conta...
Moment closure approximations are used to provide analytic approximations to nonlinear stochastic mo...
AbstractThe relationship between system-level and subsystem-level master equations is investigated a...
Understanding the dynamics of spread of infectious diseases between individuals is essential for for...
In this paper we provide the derivation of a super compact pairwise model with only 4 equations in t...
In the study of dynamics on networks, moment closure is a commonly used method to obtain low-dimensi...
Abstract In this article, we develop two independent and new approaches to model epidemic spread in ...
The dynamics of disease transmission strongly depends on the properties of the population contact ne...
We present the generalised mean-field and pairwise models for non-Markovian epidemics on networks wi...
We extrapolate from the exact master equations of epidemic dynamics on fully connected graphs to non...
AbstractUnderstanding the dynamics of spread of infectious diseases between individuals is essential...