Skip to Content
[CAIDA - Center for Applied Internet Data Analysis logo]
Center for Applied Internet Data Analysis > publications : papers : 2009 : navigability_complex_networks
Navigability of Complex Networks
M. Boguñá, D. Krioukov, and k. claffy, "Navigability of Complex Networks", Nature Physics, vol. 5, no. 1, pp. 74--80, Jan 2009.
|   View full paper:    PDF    DOI    Press Coverage    Related Presentation    |  Citation:    BibTeX    Resource Catalog   |

Navigability of Complex Networks

Marián Boguñá2
Dmitri Krioukov1
kc claffy1

CAIDA, San Diego Supercomputer Center, University of California San Diego


Departament de Física Fonamental, Universitat de Barcelona

Routing information through networks is a universal phenomenon in both natural and manmade complex systems. When each node has full knowledge of the global network connectivity, finding efficient communication paths is merely a matter of distributed computation. However, in many real networks nodes communicate efficiently even without such global intelligence. Here we show that the peculiar structural characteristics of observable complex networks are exactly the characteristics needed to maximize their communication efficiency without global knowledge. We also describe a general mechanism that explains this connection between network structure and function. This mechanism relies on the presence of a metric space hidden behind an observable network. Our findings suggest that real networks in nature have underlying metric spaces that remain undiscovered. Their discovery would have enormous practical applications ranging from routing in the Internet and searching social networks, to studying information flows in neural, gene regulatory networks, or signaling pathways.

Keywords: routing, topology
  Last Modified: Tue Nov-17-2020 04:47:05 UTC
  Page URL: