This Thesis studies bi-virus epidemics over large-scale networks. We set the rules of infection at the nodelevel and determine the dynamical law governing the evolution of the fraction of infected nodes that naturallyemerges in the limit of a large network. Then, we study the qualitative behavior of the fraction of infectednodes under the fluid limit dynamics to determine if and when the epidemics develops into a pandemic state,or leads to natural selection, with a dominant resilient virus strain. The Thesis is divided into two parts.In the first part, we establish the fluid limit macroscopic dynamics of a multi-virus epidemics overclasses of non-complete networks as the number of nodes grows large. We assume peer-to-peer random rulesof inf...
In this paper we study the global dynamics of epidemic spread over complex networks for both discret...
Epidemics and cascading failure are extensively investigated. Traditionally, they are independently ...
In this letter, we consider an epidemic model for two competitive viruses spreading over a metapopu...
This Thesis studies bi-virus epidemics over large-scale networks. We set the rules of infection at t...
<p>Epidemics in large complete networks is well established. In contrast, we consider epidemics in n...
Single virus epidemics over complete networks are widely explored in the literature as the fraction ...
Epidemics in large complete networks is well established. In contrast, we consider epidemics in non-...
Abstract—The paper studies the qualitative behavior of a set of Ordinary Differential Equations that...
We study by analytical methods and large scale simulations a dynamical model for the spreading of ep...
The study of epidemics on static networks has revealed important effects on disease prevalence of n...
We consider a Markovian SIR-type (Susceptible → Infected → Recovered) stochastic epidemic process wi...
We present a thorough inspection of the dynamical behavior of epidemic phenomena in populations with...
Abstract. We present a detailed analytical and numerical study for the spreading of infections with ...
Local interactions on a graph will lead to global dynamic behaviour. In this thesis we focus on two ...
In this thesis we analyze the relationship between epidemiology and network theory, starting from th...
In this paper we study the global dynamics of epidemic spread over complex networks for both discret...
Epidemics and cascading failure are extensively investigated. Traditionally, they are independently ...
In this letter, we consider an epidemic model for two competitive viruses spreading over a metapopu...
This Thesis studies bi-virus epidemics over large-scale networks. We set the rules of infection at t...
<p>Epidemics in large complete networks is well established. In contrast, we consider epidemics in n...
Single virus epidemics over complete networks are widely explored in the literature as the fraction ...
Epidemics in large complete networks is well established. In contrast, we consider epidemics in non-...
Abstract—The paper studies the qualitative behavior of a set of Ordinary Differential Equations that...
We study by analytical methods and large scale simulations a dynamical model for the spreading of ep...
The study of epidemics on static networks has revealed important effects on disease prevalence of n...
We consider a Markovian SIR-type (Susceptible → Infected → Recovered) stochastic epidemic process wi...
We present a thorough inspection of the dynamical behavior of epidemic phenomena in populations with...
Abstract. We present a detailed analytical and numerical study for the spreading of infections with ...
Local interactions on a graph will lead to global dynamic behaviour. In this thesis we focus on two ...
In this thesis we analyze the relationship between epidemiology and network theory, starting from th...
In this paper we study the global dynamics of epidemic spread over complex networks for both discret...
Epidemics and cascading failure are extensively investigated. Traditionally, they are independently ...
In this letter, we consider an epidemic model for two competitive viruses spreading over a metapopu...