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Multiperiod virtual topology design in wavelength routed optical networks

Multiperiod virtual topology design in wavelength routed optical networks

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  • Author(s): P. Manohar 1, 2 ; P. Manohar 1, 2 ; A. Padmanath 1, 3 ; S. Singh 1, 4 ; D. Manjunath 1
    • View affiliations
    • Affiliations: 1: Department of Electrical Engineering, IIT-Bombay, Powai Mumbai, India
      2: Department of Electrical Engineering, OSS Ltd, Mumbai, India
      3: Department of Electrical Engineering, Deccanet Designs, Bangalore, India
      4: Department of Electrical Engineering, Samsung(I) Software Operations, Bangalore, India
  • Source: Volume 150, Issue 6, December 2003, p. 516 – 520
    DOI:  10.1049/ip-cds:20031142 , Print ISSN 1350-2409, Online ISSN 1359-7000
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A wavelength routed optical network is considered for which the traffic matrix and possibly the physical topology are different during different periods of a time horizon. The optimal virtual topology for each of the periods will be different. Rather than using the best topology in every period and incurring a possibly significant reconfiguration cost, it is necessary to consider the optimum sequence of virtual topologies that will minimise the sum of the operating and reconfiguration costs over the entire horizon. The presence of short-term cycles in the traffic pattern and the possible evolution of resources and demand in the network motivates this work. The approach adopted is to find a ranked set of virtual topologies for each period and then define a shortest path problem to obtain the optimum sequence. Examples on a 10 node section of the NSFNET topology are presented.

Inspec keywords: optical fibre networks; telecommunication traffic; optimisation; network topology; telecommunication network routing

Other keywords: time horizon periods; physical topology; optimal virtual topology; shortest path problem; wavelength routed optical networks; reconfiguration cost; short-term traffic pattern cycles; traffic matrix; network resources; network demand; operating costs; NSFNET topology; optimum virtual topologies sequence; multiperiod virtual topology design

Subjects: Optical fibre networks; Communication network design, planning and routing

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