In this article we study approaches that can be used to minimise the convergence time, we also make a focus on microloops phenomenon, analysis and means to mitigate them. The convergence time reflects the time required by a network to react to a failure of a link or a router failure itself. When all nodes (routers) have updated their respective routing and forwarding databases, we can say the network has converged. This study will help in building real-time and resilient network infrastructure, the goal is to make any evenement in the core network, as transparent as possible to any sensitive and real-time flows. This study is also, a deepening of earlier works presented in 10 and 11.
%0 Journal Article
%1 IJACSA.2012.030702
%A Abdelali Ala Driss El Ouadghiri, Mohamed Essaaidi
%D 2012
%J International Journal of Advanced Computer Science and Applications(IJACSA)
%K (Label (Multiprotocol (loop ). Distribution FC(Fast-convergence); LDP LFA Label MPLS Network); P(Provider PE(Provider PIC(Protocol Private Protocol); RSVP(ressource Switching); VPN(Virtual alternate); component; convergence); core edge free independent protocol); reservation router router);
%N 7
%T Core Backbone Convergence Mechanisms and Microloops Analysis
%U http://ijacsa.thesai.org/
%V 3
%X In this article we study approaches that can be used to minimise the convergence time, we also make a focus on microloops phenomenon, analysis and means to mitigate them. The convergence time reflects the time required by a network to react to a failure of a link or a router failure itself. When all nodes (routers) have updated their respective routing and forwarding databases, we can say the network has converged. This study will help in building real-time and resilient network infrastructure, the goal is to make any evenement in the core network, as transparent as possible to any sensitive and real-time flows. This study is also, a deepening of earlier works presented in 10 and 11.
@article{IJACSA.2012.030702,
abstract = {In this article we study approaches that can be used to minimise the convergence time, we also make a focus on microloops phenomenon, analysis and means to mitigate them. The convergence time reflects the time required by a network to react to a failure of a link or a router failure itself. When all nodes (routers) have updated their respective routing and forwarding databases, we can say the network has converged. This study will help in building real-time and resilient network infrastructure, the goal is to make any evenement in the core network, as transparent as possible to any sensitive and real-time flows. This study is also, a deepening of earlier works presented in [10] and [11].},
added-at = {2014-02-21T08:00:08.000+0100},
author = {{Abdelali Ala Driss El Ouadghiri}, Mohamed Essaaidi},
biburl = {https://www.bibsonomy.org/bibtex/26090922c9c06e113f9f44c6448b9576d/thesaiorg},
interhash = {4ce897d9f0048a18034ea05ca7833f77},
intrahash = {6090922c9c06e113f9f44c6448b9576d},
journal = {International Journal of Advanced Computer Science and Applications(IJACSA)},
keywords = {(Label (Multiprotocol (loop ). Distribution FC(Fast-convergence); LDP LFA Label MPLS Network); P(Provider PE(Provider PIC(Protocol Private Protocol); RSVP(ressource Switching); VPN(Virtual alternate); component; convergence); core edge free independent protocol); reservation router router);},
number = 7,
timestamp = {2014-02-21T08:00:08.000+0100},
title = {{Core Backbone Convergence Mechanisms and Microloops Analysis}},
url = {http://ijacsa.thesai.org/},
volume = 3,
year = 2012
}