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arxiv: 2412.10685 · v1 · pith:25SFHIPSnew · submitted 2024-12-14 · 💻 cs.NI

RMCSA Algorithm for Congestion-Aware and Service Latency Aware Dynamic Service Provisioning in Software-Defined SDM-EONs

classification 💻 cs.NI
keywords algorithmnetworkrmcsaserviceblockingdynamiclinksalgorithms
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The implementation of 5G and the future deployment of 6G necessitate the utilization of optical networks that possess substantial capacity and exhibit minimal latency. The dynamic arrival and departure of connection requests in optical networks result in particular central links experiencing more traffic and congestion than non-central links. The occurrence of congested links leads to service blocking despite the availability of resources within the network, restricting the efficient utilization of network resources. The available algorithms in the literature that aim to balance load among network links offer a trade-off between blocking performance and algorithmic complexity, thus increasing service provisioning time. This work proposes a dynamic routing-based congestion-aware routing, modulation, core, and spectrum assignment (RMCSA) algorithm for space division multiplexing elastic optical networks (SDM-EONs). The algorithm finds alternative candidate paths based on real-time link occupancy metrics to minimize blocking due to link congestion under dynamic traffic scenarios. As a result, the algorithm reduces the formation of congestion hotspots in the network owing to link-betweenness centrality. We have performed extensive simulations using two realistic network topologies to compare the performance of the proposed algorithm with relevant RMCSA algorithms available in the literature. The simulation results verify the superior performance of our proposed algorithm compared to the benchmark Yen's K-shortest paths and K-Disjoint shortest paths RMCSA algorithms in connection blocking ratio and spectrum utilization efficiency. To expedite the route-finding process, we present a novel caching strategy that allows the proposed algorithm to demonstrate a much-reduced service delay time compared to the recently developed adaptive link weight-based load-balancing RMCSA algorithm.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Network Slice Embedding over Space Division Multiplexed Elastic Optical Networks

    cs.NI 2026-04 unverdicted novelty 4.0

    The WMSM scheme integrates compute and spectrum resources for network slice embedding in SDM EONs, yielding up to 27% higher acceptance ratios and 47% lower provisioning costs than baselines under high load.