Detail publikace

Enhanced Interior Gateway Routing Protocol for OMNeT++

VESELÝ, V. BLOUDÍČEK, J. RYŠAVÝ, O.

Originální název

Enhanced Interior Gateway Routing Protocol for OMNeT++

Anglický název

Enhanced Interior Gateway Routing Protocol for OMNeT++

Jazyk

en

Originální abstrakt

Cisco's EIGRP is a hybrid routing protocol between distance vector and link-state routing protocols. EIGRP offers routing based on composite metric, which takes into account multiple factors and allows more granular and precise routing decisions based on the current state of the network. Cisco released basic specification of EIGRP as IETF's RFC draft in the beginning of 2013. This paper introduces one of the first freely available EIGRP design and a simulation model implementation that can be run and tested within OMNeT++ discrete event simulator.

Anglický abstrakt

Cisco's EIGRP is a hybrid routing protocol between distance vector and link-state routing protocols. EIGRP offers routing based on composite metric, which takes into account multiple factors and allows more granular and precise routing decisions based on the current state of the network. Cisco released basic specification of EIGRP as IETF's RFC draft in the beginning of 2013. This paper introduces one of the first freely available EIGRP design and a simulation model implementation that can be run and tested within OMNeT++ discrete event simulator.

Dokumenty

BibTex


@inproceedings{BUT111662,
  author="Vladimír {Veselý} and Jan {Bloudíček} and Ondřej {Ryšavý}",
  title="Enhanced Interior Gateway Routing Protocol for OMNeT++",
  annote="Cisco's EIGRP is a hybrid routing protocol between distance vector and link-state
routing protocols. EIGRP offers routing based on composite metric, which takes
into account multiple factors and allows more granular and precise routing
decisions based on the current state of the network. Cisco released basic
specification of EIGRP as IETF's RFC draft in the beginning of 2013. This paper
introduces one of the first freely available EIGRP design and a simulation model
implementation that can be run and tested within OMNeT++ discrete event
simulator.",
  address="SciTePress - Science and Technology Publications",
  booktitle="Proceedings of the 4th International Conference on Simulation and Modeling Methodologies, Technologies and Applications (SIMULTECH 2014)",
  chapter="111662",
  doi="10.5220/0005038400500058",
  edition="NEUVEDEN",
  howpublished="print",
  institution="SciTePress - Science and Technology Publications",
  year="2014",
  month="august",
  pages="50--58",
  publisher="SciTePress - Science and Technology Publications",
  type="conference paper"
}