Traffic Protection in Multilayer Core Networks by Optimum Thinning of MPLS Tunnel Capacities

2021 International Conference on Optical Network Design and Modeling (ONDM) Pub Date : 2021-06-28 DOI:10.23919/ONDM51796.2021.9492463

R. Reyes, Shkurte Esati, T. Bauschert

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引用次数: 3

Abstract

In this paper we study a cost-efficient multilayer restoration (MR) approach for IP/MPLS-Optical networks. In these networks, the capacity of the IP links is reduced by optical link failures that include fibre cuts and lightpath signal-to-noise ratio (SNR) degradations. For instance, when a fibre is cut, the lightpaths that traverse the fibre are rerouted. In most cases, these lightpaths must reduce their line-rates to adapt to the new path lengths, which reduces the capacity of the IP links carried by the lightpaths. This causes a failure state in the IP/MPLS layer characterized by multiple IP links with reduced capacities. When this occurs, the solution used today is to shut off these IP links and restore the traffic by applying IP/MPLS rerouting. This method is costly as it increases the network spare capacity. We study an alternative strategy based on adjustable robust optimization. By this approach, the affected IP links are not torn down. Instead, the MPLS tunnels routed over these links thin their capacities to adapt to the reduced IP link capacities. Then the stranded IP traffic is routed through MPLS tunnels set up on alternative paths. The thinning and routing of MPLS tunnels is planned for foreseen optical link failures. Robustness against unforeseen failures is provided by adjustable decision rules. The efficiency of the strategy is assessed for a German backbone network. The capacity requirements attained by the method are compared with selected MR strategies. The results show that the proposed approach yields capacity savings of least 22% w.r.t the traditional shut off IP links method.

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基于MPLS隧道容量优化细化的多层核心网流量保护

本文研究了一种低成本的IP/ mpls光网络多层恢复(MR)方法。在这些网络中，IP链路的容量由于光纤链路故障(包括光纤切割和光路信噪比(SNR)下降)而降低。例如，当一根纤维被切断时，穿过纤维的光路就会改变路线。在大多数情况下，这些光路必须降低其线路速率以适应新的路径长度，这降低了光路承载的IP链路的容量。这将导致IP/MPLS层出现故障状态，其特征是多条IP链路容量减少。当发生这种情况时，目前使用的解决方案是关闭这些IP链路，并通过应用IP/MPLS重路由恢复流量。这种方法的成本较高，因为它增加了网络的备用容量。研究了一种基于可调鲁棒优化的备选策略。通过这种方法，受影响的IP链路不会被断开。相反，在这些链路上路由的MPLS隧道会减少它们的容量，以适应减少的IP链路容量。然后，搁浅的IP流量通过在备选路径上建立的MPLS隧道路由。针对可预见的光链路故障，对MPLS隧道进行细化和路由规划。可调整的决策规则提供了对不可预见故障的鲁棒性。以德国某骨干网为例，对该策略的有效性进行了评估。通过该方法获得的容量需求与所选的MR策略进行了比较。结果表明，与传统的关闭IP链路方法相比，所提出的方法可以节省至少22%的容量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 International Conference on Optical Network Design and Modeling (ONDM)

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