Research Article
Network Information Flow in Navigable Small-World Networks
@INPROCEEDINGS{10.1109/WIOPT.2006.1666504, author={Rui A. Costa and Joao Barros}, title={Network Information Flow in Navigable Small-World Networks}, proceedings={2nd International ICST Workshop on Network Coding, Theory, and Applications}, publisher={IEEE}, proceedings_a={NETCOD}, year={2006}, month={8}, keywords={}, doi={10.1109/WIOPT.2006.1666504} }- Rui A. Costa
Joao Barros
Year: 2006
Network Information Flow in Navigable Small-World Networks
NETCOD
IEEE
DOI: 10.1109/WIOPT.2006.1666504
Abstract
Small-world graphs, exhibiting high clustering co-efficients and small average path length, have been shown to capture fundamental properties of a large number of natural and man-made networks. In the context of communication networks, navigable small-world topologies, i.e. those which admit efficient distributed routing algorithms, are deemed particularly effective, for example in resource discovery tasks and peer-to-peer applications. Intrigued by the fundamental limits of communication in networks that exploit this type of topology, we study two classes of navigable small-world networks from the point of view of network information flow and provide inner and outer bounds for their max-flow min-cut capacity. Our contribution is in contrast with the standard approach to small world networks which privileges parameters pertaining to connectivity.
