An understanding of the topological structure of the Internet is needed for quite a number of networking tasks, e.g., making decisions about peering relationships, choice of upstream providers, inter-domain traffic engineering. One essential component of these tasks is the ability to predict routes in the Internet. However, the Internet is composed of a large number of independent autonomous systems (ASes) resulting in complex interactions, and until now no model of the Internet has succeeded in producing predictions of acceptable accuracy. We demonstrate that there are two limitations of prior models: (i) they have all assumed that an Autonomous System (AS) is an atomic structure — it is not, and (ii) models have tended to oversimplify the...
Mapping the Internet is a major challenge for network researchers. It is the key to building a succe...
The Internet is built on a model in which Autonomous Systems (AS) peer bilaterally based on pair-wis...
The Internet is one of the most interesting realizations of a "complex" network. As a non-supervised...
An understanding of the topological structure of the Internet is needed for quite a number of networ...
An understanding of the topological structure of the Internet is needed for quite a number of networ...
Existing models for Internet Autonomous System (AS) topology generation make structural assumptions ...
The lack of an accurate representation of the Internet topology at the Autonomous System (AS) level ...
Internet connectivity at the Autonomous System (AS)-level, defined in terms of pairwise business pee...
Despite the large number of papers on network topology modeling and inference, there still exists am...
What is Internet? Internet is a hierarchical network composed of communication de-vices, the routers...
Recent works on modeling the Internet topology [8, 9] have highlighted how the complexity of relatio...
The delivery of IP traffic through the Internet depends on the complex interactions between thousand...
Autonomous Systems (AS) in the Internet use BGP to perform inter-domain routing. A set of import an...
Classical measures of network connectivity are the number of disjoint paths between a pair of nodes ...
Most of the insight we have today about the Internet-wide route propagation comes from studies perf...
Mapping the Internet is a major challenge for network researchers. It is the key to building a succe...
The Internet is built on a model in which Autonomous Systems (AS) peer bilaterally based on pair-wis...
The Internet is one of the most interesting realizations of a "complex" network. As a non-supervised...
An understanding of the topological structure of the Internet is needed for quite a number of networ...
An understanding of the topological structure of the Internet is needed for quite a number of networ...
Existing models for Internet Autonomous System (AS) topology generation make structural assumptions ...
The lack of an accurate representation of the Internet topology at the Autonomous System (AS) level ...
Internet connectivity at the Autonomous System (AS)-level, defined in terms of pairwise business pee...
Despite the large number of papers on network topology modeling and inference, there still exists am...
What is Internet? Internet is a hierarchical network composed of communication de-vices, the routers...
Recent works on modeling the Internet topology [8, 9] have highlighted how the complexity of relatio...
The delivery of IP traffic through the Internet depends on the complex interactions between thousand...
Autonomous Systems (AS) in the Internet use BGP to perform inter-domain routing. A set of import an...
Classical measures of network connectivity are the number of disjoint paths between a pair of nodes ...
Most of the insight we have today about the Internet-wide route propagation comes from studies perf...
Mapping the Internet is a major challenge for network researchers. It is the key to building a succe...
The Internet is built on a model in which Autonomous Systems (AS) peer bilaterally based on pair-wis...
The Internet is one of the most interesting realizations of a "complex" network. As a non-supervised...