Ultra-Low Loss Fiber Deployment in Elastic Optical Networks With Fixed and Variable Topologies

Ultra-low loss (ULL) fibers are being widely deployed in optical networks due to their high transmission capacities. Existing studies on ULL fiber deployment have assumed to completely replace old standard single-mode fibers (SSMFs) when deploying new ULL fibers. This may not be practical since many carriers would prefer to continue utilizing the existing SSMFs for their remaining lifespans. This article investigates the problem of ULL fiber deployment while allowing for the utilization of old SSMFs. In the context of an elastic optical network (EON) with fixed and variable topologies, we formulate the problem of ULL fiber deployment as two mixed integer linear programming (MILP) models. Four strategies for selecting links deployed with ULL fibers are considered, which include physical length (PL), shortest route traversed (SRT), traffic demand (TD), and maximum network performance (MNP) strategies. Efficient routing, fiber, modulation format, and spectrum assignment (RFMSA) algorithms are also developed for lightpath establishment in an EON, considering the coexistence of old and new fibers. Simulation results show that the MNP strategy is effective to choose network links deployed with ULL fibers almost the same as those of the MILP models, and it can outperform the other strategies in terms of maximum number of FSs used, regardless of a fixed or variable topology.