A SDN controller architecture for Small Cell Wireless Backhaul using a LTE Control Channel

2016 IEEE 17th International Symposium on A World of Wireless, Mobile and Multimedia Networks (WoWMoM) Pub Date : 2016-06-21 DOI:10.1109/WoWMoM.2016.7523544

R. Santos, A. Kassler

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引用次数: 21

Abstract

Future Access and Backhaul Networks need to significantly carry more data traffic, which calls for network densification. However, when many small cells are densely deployed, the backhaul network might become the bottleneck, as it is economically infeasible to wire every small cell or power them on constantly. Therefore, an effective configuration of a Small Cell Wireless Backhaul Network is important due to its multi-hop operation, possibly operating in mmWave bands. In this paper, we propose to use Software-Defined Networking for the Operation and Management of Small Cell Wireless Backhaul Networks. A SDN controller based in OpenDaylight is in charge of adaptively powering on/off Small Cells and reconfiguring the backhaul forwarding topology, according to traffic demands. The SDN controller uses an optimizer module which can be configured with different policies in order to minimize the energy cost or optimize capacity or latency. We extend OpenFlow in order to gather wireless and power consumption statistics, which are exchanged between Controller and Small Cell Backhaul nodes using a LTE Out-Of-Band Control Channel.

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一种基于LTE控制通道的小蜂窝无线回程SDN控制器体系结构

未来的接入网和回程网需要承载更多的数据流量，这就要求网络致密化。然而，当许多小型基站密集部署时，回程网络可能成为瓶颈，因为从经济上讲，不可能为每个小基站都布线或持续供电。因此，小型蜂窝无线回程网络的有效配置非常重要，因为它的多跳操作可能在毫米波频段中运行。在本文中，我们提出使用软件定义网络来操作和管理小蜂窝无线回程网络。基于OpenDaylight的SDN控制器负责根据流量需求自适应地打开/关闭Small cell并重新配置回程转发拓扑。SDN控制器使用优化器模块，可以配置不同的策略，以最大限度地降低能源成本或优化容量或延迟。我们扩展OpenFlow以收集无线和功耗统计数据，这些数据使用LTE带外控制通道在控制器和小蜂窝回程节点之间交换。

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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2016 IEEE 17th International Symposium on A World of Wireless, Mobile and Multimedia Networks (WoWMoM)

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