Failure of a single node or link in the network can cause disruptions to transporting large volume of traffic, if alternate path is not provided for routing the affected traffic. Though backup links can be provided to improve the reliability of such sparse networks, it could increase the cost of the networks substantially. The challenge is to improve the reliability of the networks at minimal cost. Researchers have looked at methods of improving reliability of such networks. Detailed discussions on the importance of survivability in fiber network design can be found in Wu, Kolar, and Cardwell (1988) and Newport and Varshney (1991). Recently, vulnerabilities and associated security threats of information and communication networks have prompted researchers to define survivability as the capability of a system to fulfill its mission, in a timely manner, in the presence of attacks, failures or accidents (Redman, Warren, & Hutchinson, 2005).
Networks with ring architecture are also being increasingly deployed in high capacity networks to provide survivability. Synchronous optical network (SONET) uses a self-healing ring architecture that enables the network to maintain all or part of communication in the event of a cable cut on a link or a node failure. SONET networks are being increasingly deployed between central offices of the telecommunication companies and between point of presence (POP) of traffic concentration points. SONET-based transmission facilities are also being deployed increasingly to provide broadband facilities to business customers and government agencies. Operationally such self-healing ring networks divert the flow along an alternative path in the ring in case of failure of a node or link.
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