Hernan D. Rozenfeld, Joseph E. Kirk, Erik M. Bollt, Daniel ben-Avraham
Published 2004-03-21, updated 2004-11-10Version 2
We study the distribution of cycles of length h in large networks (of size N>>1) and find it to be an excellent ergodic estimator, even in the extreme inhomogeneous case of scale-free networks. The distribution is sharply peaked around a characteristic cycle length, h* ~ N^a. Our results suggest that h* and the exponent a might usefully characterize broad families of networks. In addition to an exact counting of cycles in hierarchical nets, we present a Monte-Carlo sampling algorithm for approximately locating h* and reliably determining a. Our empirical results indicate that for small random scale-free nets of degree exponent g, a=1/(g-1), and a grows as the nets become larger.
Comments: Further work presented and conclusions revised, following referee reports
Journal: J. Phys. A 38, 4589-4595 (2005)
Distribution of infected mass in disease spreading in scale-free networks
Random walk and trapping processes on scale-free networks
Trading interactions for topology in scale-free networks
