The majority of research on epidemics relies on models which are formulated in continuous-time. However, processing real-world epidemic data and simulating epidemics is done digitally and the continuous-time epidemic models are usually approximated by discrete-time models. In general, there is no guarantee that properties of continuous-time epidemic models, such as the stability of equilibria, also hold for the respective discrete-time approximation. We analyse the discrete-time NIMFA epidemic model on directed networks with heterogeneous spreading parameters. In particular, we show that the viral state is increasing and does not overshoot the steady-state, the steady-state is exponentially stable, and we provide linear systems that bound t...
We study the SIRS (Susceptible-Infected-Recovered-Susceptible) spreading processes over complex netw...
Current understanding of the critical outbreak condition on temporal networks relies on approximatio...
Abstract We study a discrete-time model with diffusion that describe the dynamics of viral infection...
The majority of research on epidemics relies on models which are formulated in continuous-time. Howe...
The majority of epidemic models are described by non-linear differential equations which do not have...
In this paper we study the global dynamics of epidemic spread over complex networks for both discret...
We propose a model for epidemic spreading on a finite complex network with a restriction to at most ...
In this paper, we study the qualitative behavior of a discrete-time epidemic model with vaccination....
In this letter, we consider an epidemic model for two competitive viruses spreading over a metapopu...
Local interactions on a graph will lead to global dynamic behaviour. In this thesis we focus on two ...
Continuous-time Markov process models of contagions are widely studied, not least because of their u...
An epidemic model with distributed time delay is derived to describe the dynamics of infectious dise...
In this paper, a discrete-time model has been proposed by applying nonstandard finite difference (NS...
The classical, continuous-time susceptible-infected-susceptible (SIS) Markov epidemic model on an ar...
An epidemic model with distributed time delay is derived to describe the dynamics of in-fectious dis...
We study the SIRS (Susceptible-Infected-Recovered-Susceptible) spreading processes over complex netw...
Current understanding of the critical outbreak condition on temporal networks relies on approximatio...
Abstract We study a discrete-time model with diffusion that describe the dynamics of viral infection...
The majority of research on epidemics relies on models which are formulated in continuous-time. Howe...
The majority of epidemic models are described by non-linear differential equations which do not have...
In this paper we study the global dynamics of epidemic spread over complex networks for both discret...
We propose a model for epidemic spreading on a finite complex network with a restriction to at most ...
In this paper, we study the qualitative behavior of a discrete-time epidemic model with vaccination....
In this letter, we consider an epidemic model for two competitive viruses spreading over a metapopu...
Local interactions on a graph will lead to global dynamic behaviour. In this thesis we focus on two ...
Continuous-time Markov process models of contagions are widely studied, not least because of their u...
An epidemic model with distributed time delay is derived to describe the dynamics of infectious dise...
In this paper, a discrete-time model has been proposed by applying nonstandard finite difference (NS...
The classical, continuous-time susceptible-infected-susceptible (SIS) Markov epidemic model on an ar...
An epidemic model with distributed time delay is derived to describe the dynamics of in-fectious dis...
We study the SIRS (Susceptible-Infected-Recovered-Susceptible) spreading processes over complex netw...
Current understanding of the critical outbreak condition on temporal networks relies on approximatio...
Abstract We study a discrete-time model with diffusion that describe the dynamics of viral infection...