Reconfigurable Transport Networks to Accommodate Much More Traffic Demand

2021 International Conference on Information Networking (ICOIN) Pub Date : 2021-01-13 DOI:10.1109/ICOIN50884.2021.9333962

Kazuya Anazawa, Toru Mano, Takeru Inoue, Atsushi Taniguchi, K. Mizuno

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引用次数: 3

Abstract

Transport networks are being used to exchange traffic among communication sites. Current transport networks are mostly static, because existing traffic patterns do not fluctuate wildly. However, given that demand fluctuations are likely to become significant due to the emerging diversity of network services, current static networks will have great difficulty in accommodating all future demands. In this paper, we propose a network architecture that can accommodate more demands by employing fiber cross-connects (FXCs) connected with dark fibers; FXCs, e.g., robotic patch panels and micro-electromechanical system, are optical switches that perform circuit-switching on a per-fiber basis. Because the FXCs can satisfy demand changes by reconfiguring the physical network topology, it can accommodate greater demand variations than traditional fixed networks; this is confirmed by numerical simulations. The reconfigurable network is particularly effective when the network has many nodes with significant demand fluctuations; it accommodates up to 2.5 times more demand than the fixed equivalent.

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可重构的传输网络，以适应更多的流量需求

传输网络被用来在通信站点之间交换流量。目前的交通网络大多是静态的，因为现有的交通模式波动不大。但是，鉴于由于网络服务的日益多样化，需求波动可能变得很大，目前的静态网络将很难满足所有未来的需求。在本文中，我们提出了一种可以容纳更多需求的网络架构，通过使用光纤交叉连接(FXCs)连接暗光纤;fxc，例如机器人配线板和微机电系统，是在每根光纤的基础上进行电路交换的光开关。由于FXCs可以通过重新配置物理网络拓扑来满足需求变化，因此它可以适应比传统固定网络更大的需求变化;数值模拟证实了这一点。当网络中节点较多且需求波动较大时，可重构网络尤其有效;它可以容纳的需求是固定当量的2.5倍。

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 Information Networking (ICOIN)

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