Modular synchronization in complex networks

Abstract

We study the synchronization transition (ST) of a modified Kuramoto model on two different types of modular complex networks. It is found that the ST depends on the type of intermodular connections. For the network with decentralized (centralized) intermodular connections, the ST occurs at finite coupling constant (behaves abnormally). Such distinct features are found in the yeast protein interaction network and the Internet, respectively. Moreover, by applying the finite-size scaling analysis to an artificial network with decentralized intermodular connections, we obtain the exponent associated with the order parameter of the ST to be $\beta \approx 1$ different from ${\beta }_{\mathrm{MF}}\approx 1∕2$ obtained from the scale-free network with the same degree distribution but the absence of modular structure, corresponding to the mean field value.