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Path-protection-based routing and wavelength assignment in wavelength-division multiplexing optical networks under a scheduled traffic model

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Abstract

Feature Issue on High Availability in Optical Networks

We study the optimal survivability design problem under a scheduled traffic model in wavelength-convertible WDM optical mesh networks. In this model, a set of demands is given, and the setup and tear-down time of a demand are known in advance. We formulate the joint routing and wavelength assignment problems as integer linear problems that maximally exploit network resource reuse in both space and time. Moreover, we propose efficient heuristic algorithms with different demand-ordering policies to solve large survivable routing and wavelength assignment problems under the scheduled traffic model. Our simulation results indicate that the optimization of resource sharing in space and time enabled by our connection-holding-time-aware protection schemes can achieve significantly better resource utilization than schemes that are holding-time unaware. In addition, the proposed heuristic algorithms are shown to be indeed very effective.

© 2006 Optical Society of America

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