Physics – Physics and Society
Scientific paper
2008-01-16
Physics
Physics and Society
8 pages, 8 figures. A working manuscript: suggestions and comments welcomed
Scientific paper
This work addresses synchronization in transient, non-linear stochastic dynamics corresponding to accesses performed by self-avoiding walks originating at each node of a complex network. More specifically, the synchronizability of accesses incoming from other nodes has been considered and quantified in terms of the entropy of the mean periods of access, being closely associated to the efficiency of access delivery to each node. The concept of synchronous support of a node $i$ has also been suggested as corresponding to the nodes which contribute the most for the synchronization of the accesses to $i$. These concepts have been applied to the analysis of 6 networks of different types, leading to markedly smaller synchronizability being obtained for the Watts-Strogatz and a geographical models. The more uniform synchronizabilities were identified for the Watts-Strogatz and path-regular structures. Varying degrees of correlations were found between the synchronizability and the degree or outward accessibility of the nodes. The synchronous support of a node $i$ has been found to present diverse structure, including nodes which may be near to $i$, or nodes which are scattered through the network and far away from $i$.
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