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NR: Collaborative Research: Wavelength Sharing Mesh-Restorable Optical Networks

$180,201FY2003CSENSF

University Of Maryland Baltimore County, Baltimore MD

Investigators

Abstract

Recent advances in optical wavelength division multiplexing (WDM) and optical switching have enabled the development of next generation computer networks, to operate at several Terabits per second. A side impact of this development is that fault tolerance has become even more important, since a single failure may now result in much greater loss of information. The proposed research will in-vestigate critical problems in the design of survivable optical wavelength divi-sion multiplexed (WDM) networks that are based on mesh topology. The novelty of the proposed work is two-fold: first is the consideration of wavelength-sharing wavelength routed networks (WRWS), where multiple individual ses-sions may share a wavelength, and the second is consideration of multiple si-multaneous link failures. The goal is to provide reliable connections, based on deterministic and probabilistic requirements, to the clients using the network. This topic constitutes an important component of the nation's critical infra-structure protection, given that optical WDM networks are fast becoming part of the high-speed national wide-area backbone infrastructure. The underlying goal is to obtain practical and tractable optimal and near-optimal solutions for net-works with a large number of nodes (50 - 100), with several fibers per link and more than 100 wavelengths per fiber; an additional objective is achieving sub-millisecond restoration times, compared to the few-seconds solutions of today. The proposed research will address the performance comparison and cost-benefit tradeoffs of wavelength-sharing and optical burst switching (OBS) mechanisms.

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NR: Collaborative Research: Wavelength Sharing Mesh-Restorable Optical Networks · GrantIndex