Elastic Optical Networks: The Global Evolution to Software Configurable Optical Networks

Q1 Engineering

Bell Labs Technical Journal Pub Date : 2013-11-27 DOI:10.1002/bltj.21631

Patricia Layec, Annalisa Morea, Francesco Vacondio, Olivier Rival, Jean-Christophe Antona

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引用次数: 53

Abstract

Worldwide operator deployment of high-speed 100G coherent optical networks is currently underway. To ensure a competitive solution offering significant performance improvements to cope with the ever-increasing traffic demand, a novel network concept has been proposed for improved resource utilization based on “elasticity”; specifically, the ability to make a number of previously fixed transmission parameters tunable, for example optical data rate or channel spacing. The benefits are numerous, including increased network capacity, lower cost per bit, and improved energy efficiency and scalability. In this paper, we review the work carried out within the Cooperation for a Sustained European Leadership in Telecommunications (CELTIC) Elastic-Optical NETwork (EO-Net) project towards advancing the state of software-configurable optical networking. We identify the key building blocks for enabling elastic optical networks to provide desired performance improvements over static optical networks. We examine the design of elastic transponders capable of data rate adaptation, interfaces between client packet devices and transponders supporting flexible traffic aggregation, and associated algorithms for traffic grooming and routing. We also perform network cost/energy analyses. Finally, we review the experimental demonstration of such elastic functionalities. © 2013 Alcatel-Lucent.

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弹性光网络:向软件可配置光网络的整体演进

目前，全球运营商正在部署高速100G相干光网络。为了确保有竞争力的解决方案提供显著的性能改进，以应对不断增长的流量需求，提出了一种基于“弹性”的新型网络概念，以提高资源利用率;具体地说，是使许多先前固定的传输参数可调的能力，例如光数据速率或信道间隔。这样做的好处很多，包括增加网络容量、降低每比特成本、提高能源效率和可扩展性。在本文中，我们回顾了在欧洲电信持续领导合作(CELTIC)弹性光网络(EO-Net)项目中开展的工作，以推进软件可配置光网络的状态。我们确定了使弹性光网络能够提供比静态光网络所需的性能改进的关键构建块。我们研究了能够适应数据速率的弹性转发器的设计，客户端分组设备和支持灵活流量聚合的转发器之间的接口，以及用于流量梳理和路由的相关算法。我们还执行网络成本/能源分析。最后，我们回顾了这些弹性功能的实验证明。©2013阿尔卡特朗讯

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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来源期刊

Bell Labs Technical Journal 工程技术-电信学

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： The Bell Labs Technical Journal (BLTJ) highlights key research and development activities across Alcatel-Lucent — within Bell Labs, within the company’s CTO organizations, and in cross-functional projects and initiatives. It publishes papers and letters by Alcatel-Lucent researchers, scientists, and engineers and co-authors affiliated with universities, government and corporate research labs, and customer companies. Its aim is to promote progress in communications fields worldwide; Bell Labs innovations enable Alcatel-Lucent to deliver leading products, solutions, and services that meet customers’ mission critical needs.