Andreas C. Cangellaris, Karen M. Coperich, et al.
EMC 2001
In [Y.-B. Xie, T. Zhou, B.-H. Wang, Scale-free networks without growth, Physica A 387 (2008) 16831688], a nongrowing scale-free network model has been introduced, which shows that the degree distribution of the model varies from the power-law form to the Poisson form as the free parameter α increases, and indicates that the growth may not be necessary for a scale-free network structure to emerge. However, the model implicitly assumes that self-loops and multiple-links are allowed in the model and counted in the degree distribution. In many real-life networks, such an assumption may not be reasonable. We showed here that the degree distribution of the emergent network does not obey a power-law form if self-loops and multiple-links are allowed in the model but not counted in the degree distribution. We also observed the same result when self-loops and multiple-links are not allowed in the model. Furthermore, we showed that the effect of self-loops and multiple-links on the degree distribution weakens as α increases and even becomes negligible when α is sufficiently large. © 2011 Elsevier B.V. All rights reserved.
Andreas C. Cangellaris, Karen M. Coperich, et al.
EMC 2001
A.B. McLean, R.H. Williams
Journal of Physics C: Solid State Physics
J.C. Marinace
JES
Daniel J. Coady, Amanda C. Engler, et al.
ACS Macro Letters