Optical Metro Network Design with Low Cost of Equipment

2021 International Conference on Optical Network Design and Modeling (ONDM) Pub Date : 2021-06-28 DOI:10.23919/ONDM51796.2021.9492458

Oleg Karandin, Omran Ayoub, Memedhe Ibrahimi, F. Musumeci, A. Castoldi, R. Pastorelli, M. Tornatore

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引用次数: 4

Abstract

New arising 5G services will pressure optical metro networks with unprecedented requirements. As operators’ revenues are not scaling accordingly, several technical directions to design low-cost optical metro networks are being investigated. In this study we observe that operators can jointly i) enforce Filterless Optical Network (FON) architecture, hence removing costly Wavelength Selective Switches, ii) leverage relatively short links in metro networks to reduce the number of optical amplifiers (OAs), iii) place amplifiers intelligently to maximize signal quality (SNR), hence employing higher-order modulation formats (MF) and reducing the number of transponders. To quantify the achievable cost-reduction we develop a Quality-of-Transmission (QoT) aware planning tool, based on Genetic Algorithm, for joint optimization of fiber tree establishment (inherent to FON), OA placement and MF assignment. Results obtained over a realistic topology show that the proposed design achieves overall (4-8)% equipment cost savings compared to baseline optical network deployment, without affecting QoT.

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低设备成本的光城域网设计

新出现的5G业务将以前所未有的需求给光城域网带来压力。由于运营商的收入没有相应的增长，一些设计低成本光城域网的技术方向正在研究中。在本研究中，我们观察到运营商可以联合i)实施无滤波器光网络(FON)架构，从而消除昂贵的波长选择开关，ii)利用城域网络中相对较短的链路来减少光放大器(oa)的数量，iii)智能地放置放大器以最大化信号质量(SNR)，因此采用高阶调制格式(MF)并减少转发器的数量。为了量化可实现的成本降低，我们开发了一种基于遗传算法的传输质量(QoT)感知规划工具，用于联合优化光纤树的建立(固有的FON)， OA放置和MF分配。在实际拓扑上获得的结果表明，与基线光网络部署相比，所提出的设计实现了总体(4-8)%的设备成本节约，而不影响QoT。

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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