Conference Proceedings

Third International Conference on Advances in Computing, Communication and Information Technology- CCIT 2015

A New Fault Tolerant Approach for Load-Balancing in Routing and Wavelength Assignment in WDM Networks

Author(s) : NISHA SARWADE , SURENDRA BHOSALE

Abstract

Wavelength Division Multiplexing (WDM) technology is employed in fiber-optic communication systems to multiplex optical carrier signals to a single optical fiber using different wavelengths. Fault tolerance is an important parameter in WDM networks. When a fault occurs the network requires a fault tolerance technique to repair the fault. In this paper, a new fault tolerance technique is proposed for the load balancing routing and wavelength assignment (RWA) problem. In RWA problem the fault protection issue is alienated to fault tolerant routing and fault tolerant wavelength assignment for traffic in WDM networks. The wavelength assignment is done using an advanced reservation algorithm. In routing, the primary path is set by applying max-flow load balancing technique. Then a backup path is computed for handling the link failures based on the class of request. The backup path is used for link restoration when primary path fails. Based on the class, we find the available bandwidth for backup paths. An auxiliary graph is constructed based upon the link cost for the backup path. No backup paths are required to be activated when a single link fails. This provides guarantee that the failed connections can be restored. By establishing the backup path, fault tolerance in routing and wavelength assignment is effective. Keywords: WDM networks, Fault Tolerance, Routing and Wavelength Assignment (RWA).

Conference Title : Third International Conference on Advances in Computing, Communication and Information Technology- CCIT 2015
Conference Date(s) : 26 - 27 May,2015
Place : Birmingham City University (City North Campus), Perry Barr, Birmingham B42 2SU, UNITED KINGDOM
No fo Author(s) : 2
DOI : 10.15224/978-1-63248-061-3-75
Page(s) : 129 - 133
Electronic ISBN : 978-1-63248-061-3
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