With the ubiquity of smart phones, wearable equipment, and wireless sensors, the topologies of networks composed by them change along with time. The immunization strategies in which network immune nodes are chosen by analyzing the static aggregation network topologies have been challenged. The studies about interaction propagations between two pathogens show that the interaction can change propagation threshold and the final epidemic size of each other, which provides a new thinking of immunization method. The eradication or inhibition of the virus can be achieved through the spread of its opposite party. Here, we put forward an immunization strategy whose implementation does not depend on the analysis of network topology. The immunization...
We propose a new method to immunize populations or computer networks against epidemics which is more...
In this letter we studied the epidemic spreading on scale-free networks assuming a limited budget fo...
Epidemic evolution on complex networks strongly depends on their topology and the infection dynamica...
Up to now, immunization of disease propagation has attracted great attention in both theoretical and...
Up to now, immunization of disease propagation has attracted great attention in both theoretical and...
Recently, there has been significant research activity in the algorithmic analysis of complex networ...
How to find the effective approach of immunizing a population is one open question in the research o...
Most communication networks are complex. In this paper, we address one of the fundamental problems ...
preading processes represent a very efficient tool to investigate the structural properties of netwo...
In many real-world complex systems, individuals have many kinds of interactions among them, suggesti...
Immunization strategies on complex networks are effective methods to control the spreading dynamics ...
The way diseases spread through schools, epidemics through countries, and viruses through the Intern...
Well-known immunization strategies, based on degree centrality, betweenness centrality, or closeness...
Complex networks such as the sexual partnership web or the Internet often show a high degree of redu...
The design of immunization strategies is an extremely important issue for disease or computer virus ...
We propose a new method to immunize populations or computer networks against epidemics which is more...
In this letter we studied the epidemic spreading on scale-free networks assuming a limited budget fo...
Epidemic evolution on complex networks strongly depends on their topology and the infection dynamica...
Up to now, immunization of disease propagation has attracted great attention in both theoretical and...
Up to now, immunization of disease propagation has attracted great attention in both theoretical and...
Recently, there has been significant research activity in the algorithmic analysis of complex networ...
How to find the effective approach of immunizing a population is one open question in the research o...
Most communication networks are complex. In this paper, we address one of the fundamental problems ...
preading processes represent a very efficient tool to investigate the structural properties of netwo...
In many real-world complex systems, individuals have many kinds of interactions among them, suggesti...
Immunization strategies on complex networks are effective methods to control the spreading dynamics ...
The way diseases spread through schools, epidemics through countries, and viruses through the Intern...
Well-known immunization strategies, based on degree centrality, betweenness centrality, or closeness...
Complex networks such as the sexual partnership web or the Internet often show a high degree of redu...
The design of immunization strategies is an extremely important issue for disease or computer virus ...
We propose a new method to immunize populations or computer networks against epidemics which is more...
In this letter we studied the epidemic spreading on scale-free networks assuming a limited budget fo...
Epidemic evolution on complex networks strongly depends on their topology and the infection dynamica...