Title :
Sampling ISP Backbone Topologies
Author :
Vaquero, Luis M. ; Lor, Suksant Sae ; Audsin, Dev ; Murray, Paul ; Wainwright, Nick
Author_Institution :
Cloud & Security Lab., HP Labs., Bristol, UK
fDate :
2/1/2012 12:00:00 AM
Abstract :
Large computer networks are too large to emulate or actually reproduce in conventional lab environments. Graph generation/reduction techniques have been a valuable tool to solve this limitation. However, current techniques focus on local features (e.g. router out-degree, clustering coefficient, traffic difference between edges for building a hierarchy) that do not preserve router-level backbone geographical/hierarchical features or the end-to-end delay between any arbitrary points. This letter proposes a geographical-based reduction mechanism that enables emulation in lab settings while preserving the global features of typical backbone networks. The performance evaluation is based on six inferred ISP backbone maps.
Keywords :
computer networks; geography; graph theory; telecommunication network topology; ISP backbone topologies; computer networks; geographical-based reduction mechanism; graph generation; graph reduction; Computational modeling; Delay; Emulation; Internet topology; Network topology; Topology; ISP topology; Network emulation; graph reduction;
Journal_Title :
Communications Letters, IEEE
DOI :
10.1109/LCOMM.2011.120211.112034
