Title :
Fault resilience in Next-Generation Networks
Author :
Panza, G. ; Capone, A. ; Pinarello, D. ; Belotti, P.
Author_Institution :
CEFRIEL, Politec. di Milano, Milan, Italy
Abstract :
Next-Generation Networks (NGNs) employ the Internet Protocol (IP) over a wide variety of packet-switching technologies, which often lack in really effective fault resilience enabling features. An overlay MPLS infrastructure with its fast-reroute mechanisms can be deployed to overcome such an issue. Addressing NGNs robust to single link and node failures, an off-line method to effectively calculate working and recovery paths for highly demanding services even in a point-to-multipoint scenario, is proposed and analyzed. The strength of our work is the ability to address two recovery techniques in a very simple and flexible manner, by formulating an Integer Linear Programming (ILP) problem, optimizing either the overall switching delay experienced by the user in case of failure or the bandwidth usage thanks to a shared protection, while limiting the recovery time to some tens of ms as in SONET/SDH networks.
Keywords :
IP networks; computer network reliability; integer programming; linear programming; multiprotocol label switching; next generation networks; Internet protocol; SONET-SDH network; fast-reroute mechanism; fault resilience; integer linear programming problem; next-generation network; overlay multiprotocol label switching infrastructure; packet-switching technology; Bandwidth; Maintenance engineering; Multiprotocol label switching; Network topology; Next generation networking; Switches; Unicast; FRR; Fault Resilience; ILP; MPLS; NGN; Shared Protection; Traffic Engineering; point-to-multipoint;
Conference_Titel :
Future Network and Mobile Summit, 2010
Conference_Location :
Florence
Print_ISBN :
978-1-905824-16-8
