Inspired by the theory of physics field, in this paper, we propose a novel backbone network compression algorithm based on topology potential. With consideration of the network connectivity and backbone compression precision, the method is flexible and efficient according to various network characteristics. Meanwhile, we define a metric named compression ratio to evaluate the performance of backbone networks, which provides an optimal extraction granularity based on the contributions of degree number and topology connectivity. We apply our method to the public available Internet AS network and Hep-th network, which are the public datasets in the field of complex network analysis. Furthermore, we compare the obtained results with the metrics...
© 2014 IEEE. The backbone is the natural abstraction of a complex network, which can help people to ...
A detailed understanding of the many facets of the Internet's topological structure is critical for ...
Many real-world networks tend to be very dense. Particular examples of interest arise in the constru...
A complex network is a useful tool for representing and analyzing complex systems, such as the world...
We introduce a new computational problem, theBackbone-Discovery problem, which encapsulates both fun...
In this paper, we apply data mining analysis to study the topology of the Internet, thus creating a ...
In this paper, we apply data mining analysis to study the topology of the Internet, thus creating a ...
Topology potential theory is a new community detection theory on complex network, which divides a ne...
Networks are useful for representing phenomena in a broad range of domains. Although their ability t...
Summarization: Knowledge of the up-to-date physical (i.e., layer-2) topology of an Ethernet network ...
International audienceAbstract Network science provides effective tools to model and analyze complex...
Compressing the data of a complex network is important for visualization. Based on the triangle-subg...
Networks are essential for analyzing complex systems. However, their growing size necessitates backb...
International audienceThe exponential growth in the size of real-world networks is a major barrier t...
Data has become one of the most valuable resources in today’s world where we have greater digital pr...
© 2014 IEEE. The backbone is the natural abstraction of a complex network, which can help people to ...
A detailed understanding of the many facets of the Internet's topological structure is critical for ...
Many real-world networks tend to be very dense. Particular examples of interest arise in the constru...
A complex network is a useful tool for representing and analyzing complex systems, such as the world...
We introduce a new computational problem, theBackbone-Discovery problem, which encapsulates both fun...
In this paper, we apply data mining analysis to study the topology of the Internet, thus creating a ...
In this paper, we apply data mining analysis to study the topology of the Internet, thus creating a ...
Topology potential theory is a new community detection theory on complex network, which divides a ne...
Networks are useful for representing phenomena in a broad range of domains. Although their ability t...
Summarization: Knowledge of the up-to-date physical (i.e., layer-2) topology of an Ethernet network ...
International audienceAbstract Network science provides effective tools to model and analyze complex...
Compressing the data of a complex network is important for visualization. Based on the triangle-subg...
Networks are essential for analyzing complex systems. However, their growing size necessitates backb...
International audienceThe exponential growth in the size of real-world networks is a major barrier t...
Data has become one of the most valuable resources in today’s world where we have greater digital pr...
© 2014 IEEE. The backbone is the natural abstraction of a complex network, which can help people to ...
A detailed understanding of the many facets of the Internet's topological structure is critical for ...
Many real-world networks tend to be very dense. Particular examples of interest arise in the constru...