In this paper, we present algorithms to find near-optimal sets of epidemic spreaders in complex networks. We extend the notion of local-centrality, a centrality measure previously shown to correspond with a node’s ability to spread an epidemic, to sets of nodes by introducing combinatorial local centrality. Though we prove that finding a set of nodes that maximizes this new measure is NP-hard, good approximations are available. We show that a strictly greedy approach obtains the best approximation ratio unless P =NP and then formulate a modified version of this approach that leverages qualities of the network to achieve a faster runtime while maintaining this theoretical guarantee. We perform an experimental evaluation on samples from sever...
Infectious diseases typically spread over a contact network with millions of individuals, whose shee...
We model information dissemination as a susceptible-infected epidemic process and formulate a proble...
<p>Identifying the fastest spreaders in epidemics on a network helps to ensure an efficient spreadin...
Abstract This project is about epidemics spreading in computer networks and the issue of node centra...
In the study of disease spreading on empirical complex networks in SIR model, initially infected nod...
This project is about epidemics spreading in computer networks and the issue of node centrality. The...
The identification of the most influential spreaders in networks is important to control and underst...
Epidemic modeling in complex networks is a hot research topic in recent years. The spreading of a vi...
Identifying “superspreaders ” in a network is a key problem to designing an effective mitigation str...
With networks becoming pervasive, research attention on dynamics of epidemic models in networked pop...
Networks portray a multitude of interactions through which people meet, ideas are spread and infecti...
One of the main problems in graph analysis is the correct identification of relevant nodes for sprea...
The problem of targeted network immunization can be defined as the one of finding a subset of nodes ...
Identifying important nodes for disease spreading is a central topic in network epidemiology. We inv...
Identifying important nodes for disease spreading is a central topic in network epidemiology. We inv...
Infectious diseases typically spread over a contact network with millions of individuals, whose shee...
We model information dissemination as a susceptible-infected epidemic process and formulate a proble...
<p>Identifying the fastest spreaders in epidemics on a network helps to ensure an efficient spreadin...
Abstract This project is about epidemics spreading in computer networks and the issue of node centra...
In the study of disease spreading on empirical complex networks in SIR model, initially infected nod...
This project is about epidemics spreading in computer networks and the issue of node centrality. The...
The identification of the most influential spreaders in networks is important to control and underst...
Epidemic modeling in complex networks is a hot research topic in recent years. The spreading of a vi...
Identifying “superspreaders ” in a network is a key problem to designing an effective mitigation str...
With networks becoming pervasive, research attention on dynamics of epidemic models in networked pop...
Networks portray a multitude of interactions through which people meet, ideas are spread and infecti...
One of the main problems in graph analysis is the correct identification of relevant nodes for sprea...
The problem of targeted network immunization can be defined as the one of finding a subset of nodes ...
Identifying important nodes for disease spreading is a central topic in network epidemiology. We inv...
Identifying important nodes for disease spreading is a central topic in network epidemiology. We inv...
Infectious diseases typically spread over a contact network with millions of individuals, whose shee...
We model information dissemination as a susceptible-infected epidemic process and formulate a proble...
<p>Identifying the fastest spreaders in epidemics on a network helps to ensure an efficient spreadin...