In this work we study a simple evolutionary model of bipartite networks whose evolution is based on the duplication of nodes. Using analytical results along with numerical simulation of the model, we show that the above evolutionary model results in weighted scale-free networks. Indeed we find that in the one-mode picture we have weighted networks with scale-free distributions for interesting quantities like the weights, the degrees and the weighted degrees of the nodes and the weights of the edges
The concept of scale-free networks has been widely applied across natural and physical sciences. Man...
We present a general model for the growth of weighted networks in which the structural growth is cou...
We propose a geometric growth model for weighted scale-free networks, which is controlled by two tun...
The (asymptotic) degree distributions of the best-known "scale-free'' network models are all similar...
We study a recent model of random networks based on the presence of an intrinsic character of the ve...
We study a recent model of random networks based on the presence of an intrinsic character of the ve...
It has recently been recognized that a large num-ber of systems are organized into structures best d...
This article defines a growth model for complex networks based on the underlying dynamics reminiscen...
We study the effect of subtle changes on the evolution in the scale-free (SF) networks. Three extend...
AbstractMost biological networks have some common properties, on which models have to fit. The main ...
A simple model for weighted structured scale-free (WSSF) networks is proposed. The growth dynamics o...
Abstract. We show that not only preferential attachment but also preferential depletion leads to sca...
The (asymptotic) degree distributions of the best-known ‘‘scale-free’ ’ network models are all simil...
The (asymptotic) degree distributions of the best-known ‘‘scale-free’ ’ network models are all simil...
International audienceMost biological networks have some common properties, on which models have to ...
The concept of scale-free networks has been widely applied across natural and physical sciences. Man...
We present a general model for the growth of weighted networks in which the structural growth is cou...
We propose a geometric growth model for weighted scale-free networks, which is controlled by two tun...
The (asymptotic) degree distributions of the best-known "scale-free'' network models are all similar...
We study a recent model of random networks based on the presence of an intrinsic character of the ve...
We study a recent model of random networks based on the presence of an intrinsic character of the ve...
It has recently been recognized that a large num-ber of systems are organized into structures best d...
This article defines a growth model for complex networks based on the underlying dynamics reminiscen...
We study the effect of subtle changes on the evolution in the scale-free (SF) networks. Three extend...
AbstractMost biological networks have some common properties, on which models have to fit. The main ...
A simple model for weighted structured scale-free (WSSF) networks is proposed. The growth dynamics o...
Abstract. We show that not only preferential attachment but also preferential depletion leads to sca...
The (asymptotic) degree distributions of the best-known ‘‘scale-free’ ’ network models are all simil...
The (asymptotic) degree distributions of the best-known ‘‘scale-free’ ’ network models are all simil...
International audienceMost biological networks have some common properties, on which models have to ...
The concept of scale-free networks has been widely applied across natural and physical sciences. Man...
We present a general model for the growth of weighted networks in which the structural growth is cou...
We propose a geometric growth model for weighted scale-free networks, which is controlled by two tun...