We consider the propagation of a contagion process (“epidemic”) on a network and study the problem of dynamically allocating a fixed curing budget to the nodes of the graph, at each time instant. For bounded degree graphs, we provide a lower bound on the expected time to extinction under any such dynamic allocation policy, in terms of a combinatorial quantity that we call the resistance of the set of initially infected nodes, the available budget, and the number of nodes n. Specifically, we consider the case of bounded degree graphs, with the resistance growing linearly in n. We show that if the curing budget is less than a certain multiple of the resistance, then the expected time to extinction grows exponentially with n. As a corollary, i...
We study the threshold of epidemic models in quenched networks with degree distribution given by a p...
Abstract Given a network of who-contacts-whom or who-links-to-whom, will a contagious virus/product/...
How will a virus propagate in a real network? Does an epidemic threshold exist for a finite graph? H...
We consider the propagation of a contagion process (“epidemic”) on a network and study the problem o...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
We consider an SIS-type epidemic process that evolves on a known graph. We assume that a fixed curin...
The design of an efficient curing policy, able to stem an epidemic process at an affordable cost, ha...
In this work, we study the evolution of the susceptible individuals during the spread of an epidemic...
In the Susceptible–Infectious–Recovered (SIR) model of disease spreading, the time to extinction of ...
In previous modelling efforts to understand the spreading process on networks, each node can infect ...
We consider the contact process on finite and connected graphs and study the behavior of the extinct...
<div><p>In this work, we study the evolution of the susceptible individuals during the spread of an ...
In this work, we study the evolution of the susceptible individuals during the spread of an epidemic...
Most studies on susceptible-infected-susceptible epidemics in networks implicitly assume Markovian b...
The survival time T is the longest time that a virus, a meme, or a failure can propagate in a networ...
We study the threshold of epidemic models in quenched networks with degree distribution given by a p...
Abstract Given a network of who-contacts-whom or who-links-to-whom, will a contagious virus/product/...
How will a virus propagate in a real network? Does an epidemic threshold exist for a finite graph? H...
We consider the propagation of a contagion process (“epidemic”) on a network and study the problem o...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
We consider an SIS-type epidemic process that evolves on a known graph. We assume that a fixed curin...
The design of an efficient curing policy, able to stem an epidemic process at an affordable cost, ha...
In this work, we study the evolution of the susceptible individuals during the spread of an epidemic...
In the Susceptible–Infectious–Recovered (SIR) model of disease spreading, the time to extinction of ...
In previous modelling efforts to understand the spreading process on networks, each node can infect ...
We consider the contact process on finite and connected graphs and study the behavior of the extinct...
<div><p>In this work, we study the evolution of the susceptible individuals during the spread of an ...
In this work, we study the evolution of the susceptible individuals during the spread of an epidemic...
Most studies on susceptible-infected-susceptible epidemics in networks implicitly assume Markovian b...
The survival time T is the longest time that a virus, a meme, or a failure can propagate in a networ...
We study the threshold of epidemic models in quenched networks with degree distribution given by a p...
Abstract Given a network of who-contacts-whom or who-links-to-whom, will a contagious virus/product/...
How will a virus propagate in a real network? Does an epidemic threshold exist for a finite graph? H...