This paper proposes a weighted clique evolution model based on clique (maximal complete subgraph) growth and edge-weight driven for complex networks. The model simulates the scheme of real-world networks that the evolution of networks is likely to be driven by the flow, such as traffic or information flow needs, as well as considers that real-world networks commonly consist of communities. At each time step of a network’s evolution progress, an edge is randomly selected according to a preferential scheme. Then a new clique which contains the edge is added into the network while the weight of the edge is adjusted to simulate the flow change brought by the new clique addition. We give the theoretical analysis based on the mean field theory, a...
Time evolving Random Network Models are presented as a mathematical framework for modelling and anal...
How does a social network evolve? Sociologists have studied this question for many years. According ...
Complex hypernetworks are ubiquitous in real-life systems. While a substantial body of previous rese...
We present a general model for the growth of weighted networks in which the structural growth is cou...
A model for the growth of weighted networks is proposed. The model is based on the edge preferential...
How does a social network evolve? Sociologists have studied this question since 1930s. Some famous s...
In this paper, we analyze the evolution of a small-world network and its subsequent transformation t...
We introduce a new framework for the analysis of the dynamics of networks, based on randomly reinfor...
The most of the recent models of directed weighted network evolution capture the growth process base...
Abstract. We propose an evolutionary weighted model for technological networks based on the interpla...
<div><p>We deal here with the issue of complex network evolution. The analysis of topological evolut...
We consider a new model for complex networks whose underlying mechanism is extending dense subgraphs...
<div><p>In real networks, the resources that make up the nodes and edges are finite. This constraint...
In real networks, the resources that make up the nodes and edges are finite. This constraint poses a...
Time evolving Random Network Models are presented as a mathematical framework for modelling and anal...
Time evolving Random Network Models are presented as a mathematical framework for modelling and anal...
How does a social network evolve? Sociologists have studied this question for many years. According ...
Complex hypernetworks are ubiquitous in real-life systems. While a substantial body of previous rese...
We present a general model for the growth of weighted networks in which the structural growth is cou...
A model for the growth of weighted networks is proposed. The model is based on the edge preferential...
How does a social network evolve? Sociologists have studied this question since 1930s. Some famous s...
In this paper, we analyze the evolution of a small-world network and its subsequent transformation t...
We introduce a new framework for the analysis of the dynamics of networks, based on randomly reinfor...
The most of the recent models of directed weighted network evolution capture the growth process base...
Abstract. We propose an evolutionary weighted model for technological networks based on the interpla...
<div><p>We deal here with the issue of complex network evolution. The analysis of topological evolut...
We consider a new model for complex networks whose underlying mechanism is extending dense subgraphs...
<div><p>In real networks, the resources that make up the nodes and edges are finite. This constraint...
In real networks, the resources that make up the nodes and edges are finite. This constraint poses a...
Time evolving Random Network Models are presented as a mathematical framework for modelling and anal...
Time evolving Random Network Models are presented as a mathematical framework for modelling and anal...
How does a social network evolve? Sociologists have studied this question for many years. According ...
Complex hypernetworks are ubiquitous in real-life systems. While a substantial body of previous rese...