P multicast confronts a severe scalability problem when there are large numbers of multicast groups in the network due to state explosion and control explosion. In backbone networks, this state scalability problem is exacerbated, since there are potentially enormous multicast groups crossing backbone domains, in this paper, we propose a scalable protocol, called BEAM (bi-directional aggregate multicast), which uses the concept of aggregated multicast. BEAM is a distributed protocol using bi-directional trees. It is simple and easy to implement. Through simulations, we show that BEAM can greatly improve state scalability with very low overhead: up to 98% state and tree setup and maintenance overhead reduction with less than 0.14 bandwidth waste in our experiments.
BEAM : a distributed aggregated multicast protocol using bi-directional trees / J.H. Cui, L. Lao, D. Maggiorini, M. Gerla - In: New frontiers in telecommunications : 2003 IEEE International Conference on Communications ; ICC 2003 ; 11 - 15 May 2003, Anchorage, Alaska, USAPiscataway, NJ : IEEE Operations Center, 2003. - ISBN 0-7803-7802-4. - pp. 689-695 (( convegno IEEE International Conference on Communications (ICC 2003) tenutosi a Anchorage (Alaska, USA) nel 2003.
BEAM : a distributed aggregated multicast protocol using bi-directional trees
D. MaggioriniPenultimo
;
2003
Abstract
P multicast confronts a severe scalability problem when there are large numbers of multicast groups in the network due to state explosion and control explosion. In backbone networks, this state scalability problem is exacerbated, since there are potentially enormous multicast groups crossing backbone domains, in this paper, we propose a scalable protocol, called BEAM (bi-directional aggregate multicast), which uses the concept of aggregated multicast. BEAM is a distributed protocol using bi-directional trees. It is simple and easy to implement. Through simulations, we show that BEAM can greatly improve state scalability with very low overhead: up to 98% state and tree setup and maintenance overhead reduction with less than 0.14 bandwidth waste in our experiments.
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