We study a number of properties of a simple random growing directed network which can be used to model real directed networks such as the world-wide web and call graphs. We confirm numerically that the distributions of in- and out-degree are consistent with a power law, in agreement with previous analytical results and with empirical measurements from real graphs. We study the distribution and mean of the minimum path length, the high degree nodes, the appearance and size of the giant component and the topology of the nodes outside the giant component. These properties are compared with empirical studies of the world-wide web
Networks, consisting of nodes and of edges, can be used to model numerous phenomena, e.g, web pages ...
We survey the recent work on phase transition and distances in various random graph models with gene...
<p>Right column shows illustrations of prototypical networks: the (ring) lattice small-world, the cl...
Random networks with power-law distribution of degrees of the nodes have been studied quite extensiv...
Complex networks describe a variety of systems found in nature and society. Traditionally these syst...
Many real-world networks are intrinsically directed. Such networks include activation of genes, hype...
doi:10.1088/1367-2630/9/8/282 Abstract. We study the organization and dynamics of growing directed n...
<p>Results for random graph models are averaged over 20 realizations. For the directed (undirected) ...
In this paper, a directed network model for world-wide web is presented. The out-degree of the added...
Many empirical studies on real-life networks show that many networks are small worlds, meaning that ...
As for many complex systems, network structures are important as their backbone. From research on dy...
<p>Random, small-world and scale-free networks containing 20 nodes and 73 connections were generated...
Simplifying stochastic models of the topology of Internet have been studied intensively during the p...
In many real-world networks, such as the Internet and social networks, power-law degree sequences ha...
Various random graph models have recently been proposed to replicate and explain the topology of lar...
Networks, consisting of nodes and of edges, can be used to model numerous phenomena, e.g, web pages ...
We survey the recent work on phase transition and distances in various random graph models with gene...
<p>Right column shows illustrations of prototypical networks: the (ring) lattice small-world, the cl...
Random networks with power-law distribution of degrees of the nodes have been studied quite extensiv...
Complex networks describe a variety of systems found in nature and society. Traditionally these syst...
Many real-world networks are intrinsically directed. Such networks include activation of genes, hype...
doi:10.1088/1367-2630/9/8/282 Abstract. We study the organization and dynamics of growing directed n...
<p>Results for random graph models are averaged over 20 realizations. For the directed (undirected) ...
In this paper, a directed network model for world-wide web is presented. The out-degree of the added...
Many empirical studies on real-life networks show that many networks are small worlds, meaning that ...
As for many complex systems, network structures are important as their backbone. From research on dy...
<p>Random, small-world and scale-free networks containing 20 nodes and 73 connections were generated...
Simplifying stochastic models of the topology of Internet have been studied intensively during the p...
In many real-world networks, such as the Internet and social networks, power-law degree sequences ha...
Various random graph models have recently been proposed to replicate and explain the topology of lar...
Networks, consisting of nodes and of edges, can be used to model numerous phenomena, e.g, web pages ...
We survey the recent work on phase transition and distances in various random graph models with gene...
<p>Right column shows illustrations of prototypical networks: the (ring) lattice small-world, the cl...