Evolving network - simulation study. From regular lattice to scale free network
Abstract
The Watts-Strogatz algorithm of transferring the square lattice to a small world network is modified by introducing preferential rewiring constrained by connectivity demand. The evolution of the network is two-step: sequential preferential rewiring of edges controlled by and updating the information about changes done. The evolving system self-organizes into stationary states. The topological transition in the graph structure is noticed with respect to . Leafy phase - a graph formed by multiple connected vertices (graph skeleton) with plenty of leaves attached to each skeleton vertex emerges when is small enough to pretend asynchronous evolution. Tangling phase where edges of a graph circulate frequently among low degree vertices occurs when is large. There exist conditions at which the resulting stationary network ensemble provides networks which degree distribution exhibit power-law decay in large interval of degrees.
Cite
@article{arxiv.cond-mat/0510836,
title = {Evolving network - simulation study. From regular lattice to scale free network},
author = {Danuta Makowiec},
journal= {arXiv preprint arXiv:cond-mat/0510836},
year = {2009}
}
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20 pages