TY - JOUR
AU - Kroculick, Joseph
AB - Networks add recovery to deliver reliable service between a source and destination. Reliable service is an uninterrupted data transfer between nodes, even if certain links or nodes are faulty. Recovery processes in multilayer networks might operate at the same time when faults propagate between layers during a common-cause failure. We propose an architectural model, that represents point-to-point networks as a grid, where the decisions of recovery can be represented as the replacement of ports. Since a connection is a path through the grid, we can easily determine if multiple connections are repaired. Repairing connections is the goal of multilayer recovery, even if they are repaired at different layers. Since the operations of recovery are the result of preplanned provisioning, a model-checking algorithm could be implemented to check for conflicts in the provisioning. As a first step, this paper decouples the protocols for implementing the actions of recovery from an actual resource-based model. Therefore, no signaling between nodes is treated. Since the provisioning of recovery processes will create decisions of recovery after a catastrophic common-cause failure, we can map the configurations that satisfy goals into provisioning commands sent to recovery processes.
TI - Model of coordination for multilayer protection switching
JO - Proceedings of SPIE
DO - 10.1117/12.511606
DA - 2003-08-19
UR - https://www.deepdyve.com/lp/spie/model-of-coordination-for-multilayer-protection-switching-BOkAIvdPmV
SP - 254
EP - 265
VL - 5247
IS - 1
DP - DeepDyve
ER -