Abstract—Many networks, indifferent of their function and scope, converge to a scale-free architecture in which the degree distribution approximately follows a power law. Meanwhile, many of those scale-free networks are found to be naturally divided into communities of densely connected nodes, known as community structure. Finding this community structure is a fundamental but challenging topic in network science. Since Newman’s suggestion of using modularity as a measure to qualify the strength of community structure, many efficien methods that fin community structure based on maximizing modularity have been proposed. However, there is a lack of approximation algorithms that provide provable quality bounds for the problem. In this paper, we...
Many networks including the Internet, social networks, and biological relations are found to be natu...
Networks constitute powerful means of representing various types of complex systems, where nodes den...
Complex networks such as social networks and biological networks represent complex systems in the re...
Abstract—Many networks including social networks, computer networks, and biological networks are fou...
Many social networks and complex systems are found to be naturally divided into clusters of densely ...
In this paper, we first discuss the definition of modularity (Q) used as a metric for community qual...
A community in a complex network can be seen as a subgroup of nodes that are densely connected. Disc...
Abstract Detecting community structure is fundamental for uncovering the links between topo-logical ...
Networks are a widely used tool for investigating the large-scale connectivity structure in complex ...
International audienceWe propose a simple method to extract the community structure of large network...
Community structures are ubiquitous in various complex networks, implying that the networks commonly...
Abstract—Modularity is widely used to effectively measure the strength of the community structure fo...
Modularity maximization is extensively used to detect communities in complex networks. It has been s...
Many real-world complex networks exhibit a community structure, in which the modules correspond to a...
Detecting community structure is fundamental to clarify the link between structure and function in c...
Many networks including the Internet, social networks, and biological relations are found to be natu...
Networks constitute powerful means of representing various types of complex systems, where nodes den...
Complex networks such as social networks and biological networks represent complex systems in the re...
Abstract—Many networks including social networks, computer networks, and biological networks are fou...
Many social networks and complex systems are found to be naturally divided into clusters of densely ...
In this paper, we first discuss the definition of modularity (Q) used as a metric for community qual...
A community in a complex network can be seen as a subgroup of nodes that are densely connected. Disc...
Abstract Detecting community structure is fundamental for uncovering the links between topo-logical ...
Networks are a widely used tool for investigating the large-scale connectivity structure in complex ...
International audienceWe propose a simple method to extract the community structure of large network...
Community structures are ubiquitous in various complex networks, implying that the networks commonly...
Abstract—Modularity is widely used to effectively measure the strength of the community structure fo...
Modularity maximization is extensively used to detect communities in complex networks. It has been s...
Many real-world complex networks exhibit a community structure, in which the modules correspond to a...
Detecting community structure is fundamental to clarify the link between structure and function in c...
Many networks including the Internet, social networks, and biological relations are found to be natu...
Networks constitute powerful means of representing various types of complex systems, where nodes den...
Complex networks such as social networks and biological networks represent complex systems in the re...