Self-similar scaling of density in complex real-world networks |
| |
Authors: | Neli Blagus Lovro Šubelj Marko Bajec |
| |
Institution: | University of Ljubljana, Faculty of Computer and Information Science, Ljubljana, Slovenia |
| |
Abstract: | Despite their diverse origin, networks of large real-world systems reveal a number of common properties including small-world phenomena, scale-free degree distributions and modularity. Recently, network self-similarity as a natural outcome of the evolution of real-world systems has also attracted much attention within the physics literature. Here we investigate the scaling of density in complex networks under two classical box-covering renormalizations–network coarse-graining–and also different community-based renormalizations. The analysis on over 50 real-world networks reveals a power-law scaling of network density and size under adequate renormalization technique, yet irrespective of network type and origin. The results thus advance a recent discovery of a universal scaling of density among different real-world networks P.J. Laurienti, K.E. Joyce, Q.K. Telesford, J.H. Burdette, S. Hayasaka, Universal fractal scaling of self-organized networks, Physica A 390 (20) (2011) 3608–3613] and imply an existence of a scale-free density also within–among different self-similar scales of–complex real-world networks. The latter further improves the comprehension of self-similar structure in large real-world networks with several possible applications. |
| |
Keywords: | Complex networks Self-similarity Network density Community structure |
本文献已被 ScienceDirect 等数据库收录! |
|