Making Mobile Networks Fly

世界中学生文摘 Pub Date : 2018-10-01 DOI:10.1145/3264877.3264887

K. Sundaresan

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引用次数: 0

Abstract

Advances in mobile (cellular) networks have ushered in an era of abundant connectivity. However, the stationary and expensive nature of their deployment has limited their ability to provide true "ubiquitous" connectivity under the 5G vision - especially to areas where connectivity is sparing or nonexistent (e.g. rural areas), has been compromised (e.g. disasters), or demands are extreme (e.g. venues/hotspots). The recent advances in un-manned aerial vehicle (UAVs) technology have the potential to change the landscape of wide-area wireless connectivity by bringing a new dimension - "mobility" to the cellular network infrastructure itself. By deploying base stations on each of the UAVs, service providers can now deploy and tear-down these cellular networks "in the sky" in an on-demand and flexible manner. This allows them to supplement static mobile networks in areas where additional connectivity is needed, or provide stand-alone connectivity in areas where existing mobile networks are either absent or compromised. However, realizing this vision of deploying heavy-weight cellular networks (e.g. LTE) on light-weight, resource-constrained platforms such as UAVs, faces several formidable challenges both in design and deployment. This is complicated by the complex nature of cellular networks that involve multiple interacting components - radio access network (RAN), evolved packet core (EPC) network and backhaul transport network. In this talk, I will present our system "SkyLiTE"-- one of the first efforts to design and deploy an on-demand, end-to-end, multi-cell LTE network (on UAVs) that can self-configure itself in the sky. I will discuss how SkyLiTE re-architects the various components (RAN, core and backhaul) of a cellular network to make it deployable on challenging UAV platforms in highly dynamic environments. We believe the validation of SkyLiTE in real-world deployments, will help contribute to a new era of mobile networks that can fly and make connectivity both abundant and ubiquitous.

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让移动网络飞起来

移动(蜂窝)网络的进步已经开启了一个丰富连接的时代。然而，它们部署的固定和昂贵的性质限制了它们在5G愿景下提供真正“无处不在”连接的能力——尤其是在连接不足或不存在的地区(如农村地区)、已经受损(如灾害)或需求极端的地区(如场馆/热点)。无人机(uav)技术的最新进展有可能通过给蜂窝网络基础设施本身带来一个新的维度——“移动性”，改变广域无线连接的格局。通过在每架无人机上部署基站，服务提供商现在可以按需灵活地部署和拆除这些“空中”蜂窝网络。这使它们能够在需要额外连接的地区补充静态移动网络，或在现有移动网络缺失或受损的地区提供独立连接。然而，实现在轻型、资源受限的平台(如无人机)上部署重型蜂窝网络(例如LTE)的愿景，在设计和部署方面都面临着一些艰巨的挑战。蜂窝网络涉及多个相互作用的组件(无线接入网(RAN)、演进分组核心网(EPC)和回程传输网络)，其复杂性使这一问题变得更加复杂。在这次演讲中，我将介绍我们的系统“SkyLiTE”——这是设计和部署按需、端到端、多蜂窝LTE网络(在无人机上)的首批努力之一，该网络可以在空中自我配置。我将讨论SkyLiTE如何重新构建蜂窝网络的各种组件(RAN，核心和回程)，使其可部署在高度动态环境中的具有挑战性的无人机平台上。我们相信，SkyLiTE在实际部署中的验证，将有助于推动移动网络的新时代，使网络连接既丰富又无处不在。

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

世界中学生文摘

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