最可靠三次网络的增广设计

2020 16th International Conference on the Design of Reliable Communication Networks DRCN 2020 Pub Date : 2020-03-01 DOI:10.1109/DRCN48652.2020.1570611164

E. Canale, G. Rela, F. Robledo, P. Romero, Luis Stábile

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引用次数: 1

摘要

因特网基础设施的物理支持是光纤网络(FON)。由于全球互联网流量每年翻一番，fon正面临容量紧张的问题，一些建议提供面向内容的解决方案，并结合智能频谱利用。众所周知，fon的物理实现在其链路或双连接的单次故障下是鲁棒的。不幸的是，同时发生故障，平均每年有几个小时的服务中断。本文提出了一种同时解决上述问题的智能网络增强方案。由此产生的网络是本地最可靠的3连接增强网络。我们构建3连通网络的方法是由一致最可靠网络理论、三次网络的基本性质和在可变邻域下降(VND)元启发式中仔细选择局部搜索来支持的。

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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Design of Most-Reliable Cubic Networks by Augmentations

The physical support of the Internet infrastructure is fiber-optics network (FON). Since the global Internet traffic doubles each year, FONs are suffering the capacity crunch problem, and several proposals offer content-oriented solutions, combined with a smart spectral utilization.It is well known that the physical implementation of FONs is robust under single failures on its links, or 2-connected. Unfortunately, simultaneous failures occur, and the service is disrupted for some hours per year in average.In this paper we propose a smart network augmentation which solves the previous problems simultaneously. The resulting network is a locally most-reliable 3-connected augmentation. Our methodology to build 3-connected networks is supported by the theory of uniformly most-reliable networks, elementary properties of cubic networks and a careful selection of local searches in a Variable Neighborhood Descent (VND) metaheuristic.

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2020 16th International Conference on the Design of Reliable Communication Networks DRCN 2020

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