Farey graphs are simultaneously small-world, uniquely Hamiltonian, minimally 3-colorable, maximally outerplanar and perfect. Farey graphs are therefore famous in deterministic models for complex networks. By lacking of the most important characteristics of scale-free, Farey graphs are not a good model for networks associated with some empirical complex systems. We discuss here a category of graphs which are extension of the well-known Farey graphs. These new models are named generalized Farey graphs here. We focus on the analysis of the topological characteristics of the new models and deduce the complicated and graceful analytical results from the growth mechanism used in generalized Farey graphs. The conclusions show that the new models n...
Many real-world networks exhibit scale-free degree distributions together with dissortative degree c...
For over a century, modelling of physical as well as non-physicalsystems and processes has been perf...
Abstract. Motivated by the hierarchial network model of E. Rav-asz, A.-L. Barabási, and T. Vicsek [...
Farey sequences of irreducible fractions between 0 and 1 can be related to graph constructions known...
AbstractFarey sequences of irreducible fractions between 0 and 1 can be related to graph constructio...
The recently formulated theory of horizontal visibility graphs transforms time series into graphs an...
The generalization of Farey graphs and extended Farey graphs all originate from Farey graphs. They a...
It has been shown that both humanly constructed and natural networks are often characterized by smal...
We propose a general model of unweighted and undirected networks having the scale-free property and ...
permits unrestricted use, distribution, and reproduction in any medium, provided the original work i...
Real networks can be classified into two categories: fractal networks and non-fractal networks. Here...
Motivated by the hierarchial network model of E. Ravasz, A.-L. Barabási, and T. Vicsek, we introduce...
Many real networks share three generic properties: they are scale-free, display a small-world effect...
We study the effect of subtle changes on the evolution in the scale-free (SF) networks. Three extend...
We propose a novel mechanism to generate a family of deterministic small-world and scale-free networ...
Many real-world networks exhibit scale-free degree distributions together with dissortative degree c...
For over a century, modelling of physical as well as non-physicalsystems and processes has been perf...
Abstract. Motivated by the hierarchial network model of E. Rav-asz, A.-L. Barabási, and T. Vicsek [...
Farey sequences of irreducible fractions between 0 and 1 can be related to graph constructions known...
AbstractFarey sequences of irreducible fractions between 0 and 1 can be related to graph constructio...
The recently formulated theory of horizontal visibility graphs transforms time series into graphs an...
The generalization of Farey graphs and extended Farey graphs all originate from Farey graphs. They a...
It has been shown that both humanly constructed and natural networks are often characterized by smal...
We propose a general model of unweighted and undirected networks having the scale-free property and ...
permits unrestricted use, distribution, and reproduction in any medium, provided the original work i...
Real networks can be classified into two categories: fractal networks and non-fractal networks. Here...
Motivated by the hierarchial network model of E. Ravasz, A.-L. Barabási, and T. Vicsek, we introduce...
Many real networks share three generic properties: they are scale-free, display a small-world effect...
We study the effect of subtle changes on the evolution in the scale-free (SF) networks. Three extend...
We propose a novel mechanism to generate a family of deterministic small-world and scale-free networ...
Many real-world networks exhibit scale-free degree distributions together with dissortative degree c...
For over a century, modelling of physical as well as non-physicalsystems and processes has been perf...
Abstract. Motivated by the hierarchial network model of E. Rav-asz, A.-L. Barabási, and T. Vicsek [...