We generalize the scale-free network model of Barabási and Albert (Science, 286 (1999) 509) by proposing a class of stochastic models for scale-free interdependent networks in which interdependent nodes are not randomly connected but rather are connected via preferential attachment (PA). Each network grows through the continuous addition of new nodes, and new nodes in each network attach preferentially and simultaneously to a) well-connected nodes within the same network and b) well-connected nodes in other networks. We present analytic solutions for the power-law exponents as functions of the number of links both between networks and within networks. We show that a cross-clustering coefficient vs. size of network N follows a power law. We ...
In spite of its relevance to the origin of complex networks, the interplay between form and function...
Growth and preferential attachment are the two ingredients of the scale-free network. Based on the B...
In this paper we present a framework for the extension of the Barabási-Albert model to heterogeneous...
In this communication we present results concerning a generalization of the preferential attachment ...
One of the best-known models in network science is preferential attachment. In this model, the proba...
In this paper, we present a simple model of scale-free networks that incorporates both preferential ...
We propose a scale-free network model with a tunable power-law exponent. The Poisson growth model, a...
In order to explore further the underlying mechanism of scale-free networks, we study stochastic sec...
A network model with node and connection diversity is proposed in this paper. Distinctly from to oth...
AbstractPreferential Attachment (PA), which was originally proposed in the Barabasi-Albert (BA) Mode...
Abstract. The combination of growth and preferential attachment is responsible for the power-law dis...
We show that not only preferential attachment but also preferential depletion leads to scale-free ne...
Scale-free networks are a recently developed approach to modeling the interactions found in complex ...
In an affiliation network vertices are linked to attributes and two vertices are declared adjacent w...
Many studies have considered the preferential attachment mechanism to cause scale-free networks. On ...
In spite of its relevance to the origin of complex networks, the interplay between form and function...
Growth and preferential attachment are the two ingredients of the scale-free network. Based on the B...
In this paper we present a framework for the extension of the Barabási-Albert model to heterogeneous...
In this communication we present results concerning a generalization of the preferential attachment ...
One of the best-known models in network science is preferential attachment. In this model, the proba...
In this paper, we present a simple model of scale-free networks that incorporates both preferential ...
We propose a scale-free network model with a tunable power-law exponent. The Poisson growth model, a...
In order to explore further the underlying mechanism of scale-free networks, we study stochastic sec...
A network model with node and connection diversity is proposed in this paper. Distinctly from to oth...
AbstractPreferential Attachment (PA), which was originally proposed in the Barabasi-Albert (BA) Mode...
Abstract. The combination of growth and preferential attachment is responsible for the power-law dis...
We show that not only preferential attachment but also preferential depletion leads to scale-free ne...
Scale-free networks are a recently developed approach to modeling the interactions found in complex ...
In an affiliation network vertices are linked to attributes and two vertices are declared adjacent w...
Many studies have considered the preferential attachment mechanism to cause scale-free networks. On ...
In spite of its relevance to the origin of complex networks, the interplay between form and function...
Growth and preferential attachment are the two ingredients of the scale-free network. Based on the B...
In this paper we present a framework for the extension of the Barabási-Albert model to heterogeneous...