We investigate the dynamics of an epidemiological susceptible-infected-susceptible (SIS) model on an adaptive network. This model combines epidemic spreading (dynamics on the network) with rewiring of network connections (topological evolution of the network). We propose and implement a computational approach that enables us to study the dynamics of the network directly on an emergent, coarse-grained level. The approach sidesteps the derivation of closed low-dimensional approximations. Our investigations reveal that global coupling, which enters through the awareness of the population to the disease, can result in robust large-amplitude oscillations of the state and topology of the network
Master's thesis in Mathematics and PhysicsThe spread of a virus or the outbreak of an epidemic are n...
The interplay between disease spreading and personal risk perception is of key importance for modell...
A methodology is formulated for studying the effects of network structure on the dynamics and spread...
Epidemic propagation on complex networks has been widely investigated, mostly with invariant paramet...
Local interactions on a graph will lead to global dynamic behaviour. In this thesis we focus on two ...
An adaptive network model using SIS epidemic propagation with link-type de-pendent link activation a...
Network processes model how information, virus, or failures interact and spread in a system or popul...
The study of epidemics on static networks has revealed important effects on disease prevalence of n...
Research on the interplay between the dynamics on the network and the dynamics of the network has at...
In the classical susceptible-infected-susceptible (SIS) model, a disease or infection spreads over a...
Epidemics and cascading failure are extensively investigated. Traditionally, they are independently ...
© 2019 World Scientific Publishing Company. When virus spreads in a network, individuals may adaptiv...
The spreading process of diseases has been an important research topic for many years. It has profou...
We study by analytical methods and large scale simulations a dynamical model for the spreading of ep...
We study the standard SIS model of epidemic spreading on networks where individuals have a fluctuati...
Master's thesis in Mathematics and PhysicsThe spread of a virus or the outbreak of an epidemic are n...
The interplay between disease spreading and personal risk perception is of key importance for modell...
A methodology is formulated for studying the effects of network structure on the dynamics and spread...
Epidemic propagation on complex networks has been widely investigated, mostly with invariant paramet...
Local interactions on a graph will lead to global dynamic behaviour. In this thesis we focus on two ...
An adaptive network model using SIS epidemic propagation with link-type de-pendent link activation a...
Network processes model how information, virus, or failures interact and spread in a system or popul...
The study of epidemics on static networks has revealed important effects on disease prevalence of n...
Research on the interplay between the dynamics on the network and the dynamics of the network has at...
In the classical susceptible-infected-susceptible (SIS) model, a disease or infection spreads over a...
Epidemics and cascading failure are extensively investigated. Traditionally, they are independently ...
© 2019 World Scientific Publishing Company. When virus spreads in a network, individuals may adaptiv...
The spreading process of diseases has been an important research topic for many years. It has profou...
We study by analytical methods and large scale simulations a dynamical model for the spreading of ep...
We study the standard SIS model of epidemic spreading on networks where individuals have a fluctuati...
Master's thesis in Mathematics and PhysicsThe spread of a virus or the outbreak of an epidemic are n...
The interplay between disease spreading and personal risk perception is of key importance for modell...
A methodology is formulated for studying the effects of network structure on the dynamics and spread...