We consider Markovian susceptible-infectious-removed (SIR) dynamics on time-invariant weighted contact networks where the infection and removal processes are Poisson and where network links may be directed or undirected. We prove that a particular pair-based moment closure representation generates the expected infectious time series for networks with no cycles in the underlying graph. Moreover, this “deterministic” representation of the expected behaviour of a complex heterogeneous and finite Markovian system is straightforward to evaluate numerically
This paper introduces a novel extension of the edge-based compartmental model to epidemics where the...
We present the generalised mean-field and pairwise models for non-Markovian epidemics on networks wi...
AbstractUnderstanding the dynamics of spread of infectious diseases between individuals is essential...
We consider Markovian susceptible-infectious-removed (SIR) dynamics on time-invariant weighted conta...
We consider a very general stochastic model for an SIR epidemic on a network which allows an individ...
We consider a very general stochastic model for an SIR epidemic on a network which allows an individ...
Many if not all models of disease transmission on networks can be linked to the exact state-based Ma...
We present the generalized mean-field and pairwise models for non-Markovian epidemics on networks wi...
In a previous paper Sharkey et al. [14] proved the exactness of closures at the level of triples for...
Understanding the dynamics of spread of infectious diseases between individuals is essential for for...
The message passing approach of Karrer and Newman [Phys. Rev. E 82, 016101 (2010)] is an exact and p...
In this Letter, a generalization of pairwise models to non-Markovian epidemics on networks is presen...
AbstractThe relationship between system-level and subsystem-level master equations is investigated a...
We present a modelling framework for the spreading of epidemics on temporal networks from which both...
In a previous paper Sharkey et al. (Bull Math Biol doi:10.1007/s11538-013-9923-5, 2012) proved the e...
This paper introduces a novel extension of the edge-based compartmental model to epidemics where the...
We present the generalised mean-field and pairwise models for non-Markovian epidemics on networks wi...
AbstractUnderstanding the dynamics of spread of infectious diseases between individuals is essential...
We consider Markovian susceptible-infectious-removed (SIR) dynamics on time-invariant weighted conta...
We consider a very general stochastic model for an SIR epidemic on a network which allows an individ...
We consider a very general stochastic model for an SIR epidemic on a network which allows an individ...
Many if not all models of disease transmission on networks can be linked to the exact state-based Ma...
We present the generalized mean-field and pairwise models for non-Markovian epidemics on networks wi...
In a previous paper Sharkey et al. [14] proved the exactness of closures at the level of triples for...
Understanding the dynamics of spread of infectious diseases between individuals is essential for for...
The message passing approach of Karrer and Newman [Phys. Rev. E 82, 016101 (2010)] is an exact and p...
In this Letter, a generalization of pairwise models to non-Markovian epidemics on networks is presen...
AbstractThe relationship between system-level and subsystem-level master equations is investigated a...
We present a modelling framework for the spreading of epidemics on temporal networks from which both...
In a previous paper Sharkey et al. (Bull Math Biol doi:10.1007/s11538-013-9923-5, 2012) proved the e...
This paper introduces a novel extension of the edge-based compartmental model to epidemics where the...
We present the generalised mean-field and pairwise models for non-Markovian epidemics on networks wi...
AbstractUnderstanding the dynamics of spread of infectious diseases between individuals is essential...