Title :
Fast Local Rerouting for Handling Transient Link Failures
Author :
Nelakuditi, Srihari ; Lee, Sanghwan ; Yu, Yinzhe ; Zhang, Zhi-Li ; Chuah, Chen-Nee
Author_Institution :
Dept. of Comput. Sci. & Eng., South Carolina Univ., Columbia, SC
fDate :
4/1/2007 12:00:00 AM
Abstract :
Link failures are part of the day-to-day operation of a network due to many causes such as maintenance, faulty interfaces, and accidental fiber cuts. Commonly deployed link state routing protocols such as OSPF react to link failures through global link state advertisements and routing table recomputations causing significant forwarding discontinuity after a failure. Careful tuning of various parameters to accelerate routing convergence may cause instability when the majority of failures are transient. To enhance failure resiliency without jeopardizing routing stability, we propose a local rerouting based approach called failure insensitive routing. The proposed approach prepares for failures using interface-specific forwarding, and upon a failure, suppresses the link state advertisement and instead triggers local rerouting using a backwarding table. With this approach, when no more than one link failure notification is suppressed, a packet is guaranteed to be forwarded along a loop-free path to its destination if such a path exists. This paper demonstrates the feasibility, reliability, and stability of our approach
Keywords :
Internet; routing protocols; OSPF; accidental fiber cuts; backwarding table; failure insensitive routing; failure resiliency enhancement; fast local rerouting; faulty interfaces; forwarding discontinuity; global link state advertisements; interface-specific forwarding; link state routing protocols; loop-free path; routing convergence acceleration; routing stability; routing table recomputation; transient link failure handling; Acceleration; Availability; Business; Computer science; Convergence; Cultural differences; Helium; Internet telephony; Routing protocols; Stability; Fast rerouting; interface-specific forwarding; transient failures;
Journal_Title :
Networking, IEEE/ACM Transactions on
DOI :
10.1109/TNET.2007.892851
