Abstract— The paper proposes a novel SLA-aware mechanism to improve the performance of the networks with huge traffic volume of high priority connection requests with long holding time for optical shared mesh networks. The proposed mechanism consists of two parts, a novel reprovisioning algorithm which buffers and further processes the potentially blocked high priority connection requests, and a new time-aware path constraint which takes advantage of availability and holding-time as two crucial SLA connection parameters. The proposed mechanism benefits from dynamic service level agreement negotiation between a customer and service providers. The simulation results show reduced blocking probability, increased availability satisfaction rate, decreased resource overbuild, and better resource utilization to preserve the high priority class of traffic compared to other SLA-aware algorithms and protection schemes in shared mesh optical networks.
Index Terms— SLA-aware re-provisioning algorithm; dynamic service level agreement negotiation; maximum path availability algorithm; time-aware maximum path availability.
A. Nafarieh is with the Internetworking Engineering Department of Dalhousie University, Halifax, NS, Canada (e-mail: ali.nafarieh@dal.ca).
W. Robertson is with the Internetworking Eng. Department of Dalhousie University, Halifax, NS, Canada (e-mail: billr@dal.ca).
W. Phillips is with the Engineering Mathematics Department of Dalhousie University, Halifax, NS, Canada (e-mail: w.phillips@dal.ca).
S. Sivakumar is with the Department of Information Systems of SMU, Halifax, NS, Canada (e-mail: shyamala.sivakumar@smu.ca).
[PDF]
Cite: Alireza Nafarieh, William Robertson, William Phillips, and Shyamala Sivakumar, " Adaptive SLA-Aware Algorithms for Provisioning Shared Mesh Optical Networks," International Journal of Information and Electronics Engineering vol. 3, no. 5, pp. 516-522, 2013.