<p>Epidemics in large complete networks is well established. In contrast, we consider epidemics in non-complete networks. We establish the fluid limit macroscopic dynamics of a multi-virus spread over a multipartite network as the number of nodes at each partite or island grows large. The virus spread follows a peer-to-peer random rule of infection in line with the Harris contact process. The model conforms to an SIS (susceptible-infected-susceptible) type, where a node is either infected or it is healthy and prone to be infected. The local (at node level) random infection model induces the emergence of structured dynamics at the macroscale. Namely, we prove that, as the multipartite network grows large, the normalized Markov jump vector pr...
Abstract—Understanding the spreading dynamics of computer viruses (worms, attacks) is an important r...
The influence of the network characteristics on the virus spread is analyzed in a new-the N-intertwi...
<div><p>Understanding models which represent the invasion of network-based systems by infectious age...
Epidemics in large complete networks is well established. In contrast, we consider epidemics in non-...
Epidemics in large complete networks is well established. In contrast, we consider epidemics in non-...
<p>Single virus epidemics over complete networks are widely explored in the literature as the fracti...
This Thesis studies bi-virus epidemics over large-scale networks. We set the rules of infection at t...
We consider a Markovian SIR-type (Susceptible → Infected → Recovered) stochastic epidemic process wi...
Since a real epidemic process is not necessarily Markovian, the epidemic threshold obtained under 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 ...
Acknowledgments: This work was financed by the Labex B\'ezout (ANR-10-LABX-58) and the COCOON grant ...
Local interactions on a graph will lead to global dynamic behaviour. In this thesis we focus on two ...
We study by analytical methods and large scale simulations a dynamical model for the spreading of ep...
We present a detailed analytical and numerical study for the spreading of infections with acquired ...
Abstract—Understanding the spreading dynamics of computer viruses (worms, attacks) is an important r...
The influence of the network characteristics on the virus spread is analyzed in a new-the N-intertwi...
<div><p>Understanding models which represent the invasion of network-based systems by infectious age...
Epidemics in large complete networks is well established. In contrast, we consider epidemics in non-...
Epidemics in large complete networks is well established. In contrast, we consider epidemics in non-...
<p>Single virus epidemics over complete networks are widely explored in the literature as the fracti...
This Thesis studies bi-virus epidemics over large-scale networks. We set the rules of infection at t...
We consider a Markovian SIR-type (Susceptible → Infected → Recovered) stochastic epidemic process wi...
Since a real epidemic process is not necessarily Markovian, the epidemic threshold obtained under 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 ...
Acknowledgments: This work was financed by the Labex B\'ezout (ANR-10-LABX-58) and the COCOON grant ...
Local interactions on a graph will lead to global dynamic behaviour. In this thesis we focus on two ...
We study by analytical methods and large scale simulations a dynamical model for the spreading of ep...
We present a detailed analytical and numerical study for the spreading of infections with acquired ...
Abstract—Understanding the spreading dynamics of computer viruses (worms, attacks) is an important r...
The influence of the network characteristics on the virus spread is analyzed in a new-the N-intertwi...
<div><p>Understanding models which represent the invasion of network-based systems by infectious age...