Abstract
p-Cycle-based protection is one of the most promising techniques of
span protection in optical networks because of mesh-like efficiency and ring-like
speed. We have presented a modified distributed cycle preconfiguration protocol
(MDCPC) which reduces the computational complexities, by finding all the copies
of the same p-cycle in single iteration. All the copies of the same p-cycle
are aggregated together to reduce the number of switching fabrics and the
amount of signalling traffic. Further, the restoration paths provided by the
p-cycles are usually many hops long, as longer p-cycles provide better efficiency.
Obviously, with longer p-cycles, the nodes in the working path may be repeated
in the restoration path provided by the p-cycle. They will give rise to loop
backs in the restored path. The restored path lengths will unnecessarily be
longer due to these loop backs. If these loop backs can be removed, the restored
path length will be reduced significantly, and redundant capacity will also
be released. In the present work, a distributed protocol has been presented
for the implementation of removal of loop back (RLB) algorithm to reconfigure
the restored path. The reduction in the restored path length also depends
on the fact that which p-cycle is being used to protect a particular path.
The problem has been formulated as optimum p-cycle allocation (OPA) problem
and solved with the Hungarian algorithm. The average lengths of the restored
paths with and without RLB for the networks with 2.0 average nodal degree
have also been derived.
© 2008 IEEE
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