<> "The repository administrator has not yet configured an RDF license."^^ . <> . . . "A self-organized model for network evolution"^^ . "Here we provide a detailed analysis, along with some extensions and additonal investigations, of a recently proposed [1] self-organized model for the evolution of complex networks. Vertices of the network are characterized by a fitness variable evolving through an extremal dynamics process, as in the Bak-Sneppen [2] model representing a prototype of Self-Organized Criticality. The network topology is in turn shaped by the fitness variable itself, as in the fitness network model [3]. The system self-organizes to a nontrivial state, characterized by a power-law decay of dynamical and topological quantities above a critical threshold. The interplay between topology and dynamics in the system is the key ingredient leading to an unexpected behaviour of these quantities. "^^ . "2008" . "64" . "3-4" . . "The European Physical Journal B"^^ . . . "14346028" . . . . . . . . . . . . . "Diego"^^ . "Garlaschelli"^^ . "Diego Garlaschelli"^^ . . "Andrea"^^ . "Capocci"^^ . "Andrea Capocci"^^ . . "Guido"^^ . "Caldarelli"^^ . "Guido Caldarelli"^^ . . . . . "HTML Summary of #1092 \n\nA self-organized model for network evolution\n\n" . "text/html" . . . "QC Physics"@en . . . "QH Natural history"@en . .