Spectrum Assignment constraints for improved OSNR in optical networks with dynamic traffic

2017 IEEE 18th International Conference on High Performance Switching and Routing (HPSR) Pub Date : 2017-06-01 DOI:10.1109/HPSR.2017.7968682

Yue Fei, Xue Wang, Yamini Jayabal, A. Fumagalli, R. Hui, G. Galimberti, G. Martinelli

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引用次数: 1

Abstract

In dynamic-traffic Wavelength Division Multiplexing (WDM) networks, it is desirable to guarantee each optical circuit a minimum Optical Signal-to-Noise Ratio (OSNR) throughout the circuit's entire lifetime. The objective of this paper is to increase such guaranteed OSNR, which in turn enables bandwidth-efficient modulation formats to be applied to the circuit signals. The guaranteed OSNR is improved by applying OSNR-driven Spectrum Assignment (OSA) constraints to each fiber link in the network, based on its forecast traffic volume (offered load). Applying OSA constraints to fiber links has two conflicting outcomes. On the one hand, circuit requests may experience higher blocking probabilities due to the lack of usable spectrum. On the other hand, the adverse effects of medium nonlinearity may be contained, thus yielding improved circuit OSNR. Two OSA constraints are described and their favorable impact on circuit OSNR (up to 2.75 dB gain) is estimated by using a Gaussian Noise (GN) model and an event-driven simulation of two WDM networks supporting dynamic circuits.

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动态流量光网络中提高OSNR的频谱分配约束

在动态流量波分复用(WDM)网络中，需要保证每条光电路在整个生命周期内具有最小的光信噪比(OSNR)。本文的目标是提高这种保证的OSNR，从而使带宽高效的调制格式能够应用于电路信号。通过基于预测通信量(提供的负载)对网络中的每条光纤链路应用OSNR驱动的频谱分配(OSA)约束，提高了保证的OSNR。对光纤链路应用OSA约束有两个相互冲突的结果。一方面，由于缺乏可用频谱，电路请求可能会经历更高的阻塞概率。另一方面，可以抑制介质非线性的不利影响，从而提高电路的OSNR。描述了两种OSA约束，并通过使用高斯噪声(GN)模型和支持动态电路的两个WDM网络的事件驱动仿真估计了它们对电路OSNR(高达2.75 dB增益)的有利影响。

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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2017 IEEE 18th International Conference on High Performance Switching and Routing (HPSR)

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