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John Doucette and Wayne D. Grover

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1 John Doucette and Wayne D. Grover
Node-Inclusive Span Survivability in an Optical Mesh Transport Network John Doucette and Wayne D. Grover TRLabs and University of Alberta Edmonton, AB, Canada NFOEC 2003 Orlando, FL, USA 7-11 September 2003

2 Introduction Span Restoration End-to-End Path Restoration
Localized and shorter restoration paths Faster and easier control of transmission effects Less capacity efficient No ability to recover from node failures End-to-End Path Restoration More capacity efficient Inherent ability to recover from node failures Operationally more complicated Many nodes involved, and restoration paths are lengthy Greater average delay Can we modify span restoration to protect node failures? Will this combine benefits of span and path restoration?

3 Node-Inclusive Span Survivability Concept
Z X B C D Y custodial nodes Span Restoration A Z B C D X Y custodial node Path Restoration A Z X B C D Y custodial regions node-inclusive span entity NA NZ Node-Inclusive Span Survivability

4 NISS Operational Details
B C D E X A B C D E X Span Failure Recovery: Node Failure Recovery: A B C D E X

5 NISS Operational Details(2)
restoration route custodial node custodial regions A Z B Y X C O D X O D X custodial node restoration route

6 Integer Linear Programming Model
Objective Function: Minimize cost of spare capacity Subject To: Restoration flow for all span failure scenarios Spare capacity allocation for span failures including stub release Restoration flow for all node failure scenarios Spare capacity allocation for node failures

7 Computational Aspects
Test networks Group A: Nine small test networks (9-node 17-span to 11-node 26-span) Group B: Three families of networks of varying average nodal degree (15-node to 25-node) Traffic demands Group A: Various, as per networks’ sources Group B: Uniform random demands from 1 to 10 wavelengths Working capacity is shortest path routed Eligible route enumeration At least five eligible restoration routes per failure scenario ILP solution method Implemented in AMPL and solved using CPLEX 7.1 MIP 4-processor UltraSparc Sun Server, 450 MHz, 4 GB RAM Solved to within 0.01% of optimality Most problems solved in several seconds or minutes

8 Results Test Networks: Group A

9 Results (2) Test Networks: Group B 15-node family

10 Results (3) Test Networks: Group B 20-node family

11 Results (4) Test Networks: Group B 25-node family

12 Concluding Remarks Node failure protection is inherent
and we can explicitly guarantee it Spare capacity requirements are good significantly below span restoration approaching path restoration (within 0% to 10%) Easily amenable to dynamic service provisioning working capacity envelope can apply Localized restoration paths make operational aspects much easier than path restoration

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