Two complementary approaches to mapping network boundaries from traceroute paths recently emerged [27,31]. Both approaches apply heuristics to inform inferences extracted from traceroute measurement campaigns. bdrmap [27] used targeted traceroutes from a specific network, alias resolution probing techniques, and AS relationship inferences, to infer the boundaries of that specific network and the other networks attached at each boundary. MAPIT [31] tackled the ambitious challenge of inferring all AS-level network boundaries in a massive archived collection of traceroutes launched from many different networks. Both were substantial contributions to the state-of-the-art, and inspired a collaboration to explore the potential to combine the appr...
We consider using traceroute-like end-to-end measurement to infer the underlay topology for a group ...
Data collected using traceroute-based algorithms underpins research into the Internet’s router-level...
Learning network distances, e.g., latency, bandwidth, loss, enhances network applications performanc...
Two complementary approaches to mapping network boundaries from traceroute paths recently emerged [2...
Measuring, diagnosing, and debugging the Internet is surprisingly difficult. The end-to-end argument...
Current methods to analyze the Internet's router-level topology with paths collected using tracerout...
An accurate Internet topology graph is important in many areas of networking, from understanding ISP...
peer reviewedSince the nineties, the Internet has seen an impressive growth, in terms of users, int...
(abstract) Since the 1980’s, the Internet has steadily grown in size to deliver various services to ...
Mapping the Internet generally consists in sampling the network from a limited set of sources by usi...
For a long time, traceroute measurements combined with alias resolution methods have been the sole w...
In the past few years, the network measurement community has been interested in the problem of inter...
Formally, the Internet inter-domain routing system is a collection of networks, their policies, peer...
Internet mapping projects generally consist in sampling the network from a limited set of sources by...
Several traceroute probe methods exist, each designed to perform better in a scenario where another ...
We consider using traceroute-like end-to-end measurement to infer the underlay topology for a group ...
Data collected using traceroute-based algorithms underpins research into the Internet’s router-level...
Learning network distances, e.g., latency, bandwidth, loss, enhances network applications performanc...
Two complementary approaches to mapping network boundaries from traceroute paths recently emerged [2...
Measuring, diagnosing, and debugging the Internet is surprisingly difficult. The end-to-end argument...
Current methods to analyze the Internet's router-level topology with paths collected using tracerout...
An accurate Internet topology graph is important in many areas of networking, from understanding ISP...
peer reviewedSince the nineties, the Internet has seen an impressive growth, in terms of users, int...
(abstract) Since the 1980’s, the Internet has steadily grown in size to deliver various services to ...
Mapping the Internet generally consists in sampling the network from a limited set of sources by usi...
For a long time, traceroute measurements combined with alias resolution methods have been the sole w...
In the past few years, the network measurement community has been interested in the problem of inter...
Formally, the Internet inter-domain routing system is a collection of networks, their policies, peer...
Internet mapping projects generally consist in sampling the network from a limited set of sources by...
Several traceroute probe methods exist, each designed to perform better in a scenario where another ...
We consider using traceroute-like end-to-end measurement to infer the underlay topology for a group ...
Data collected using traceroute-based algorithms underpins research into the Internet’s router-level...
Learning network distances, e.g., latency, bandwidth, loss, enhances network applications performanc...