We have recently proposed and demonstrated, by means of simulation, the benefits of a simple yet effective cognitive technique to enhance stateless Path Computation Element (PCE) algorithms with the aim of reducing the connection blocking probability when relying on a potentially non up-to-date Traffic Engineering Database (TED). In this paper, we validate and analyse its performance in an emulation environment (rather than in a simulation environment) that supports impairment-aware lightpath establishment. Emulation results demonstrate the reduction in blocking probability offered by the proposed technique, which also provides negligible impact on lightpath setup time.
Experimental assessment of a cognitive mechanism to reduce the impact of outdated TEDs in optical networks
D. Siracusa;A. Francescon;E. Salvadori;
2014-01-01
Abstract
We have recently proposed and demonstrated, by means of simulation, the benefits of a simple yet effective cognitive technique to enhance stateless Path Computation Element (PCE) algorithms with the aim of reducing the connection blocking probability when relying on a potentially non up-to-date Traffic Engineering Database (TED). In this paper, we validate and analyse its performance in an emulation environment (rather than in a simulation environment) that supports impairment-aware lightpath establishment. Emulation results demonstrate the reduction in blocking probability offered by the proposed technique, which also provides negligible impact on lightpath setup time.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
