Enabling Low Latency Services on LTE Networks

2016 IEEE 1st International Workshops on Foundations and Applications of Self* Systems (FAS*W) Pub Date : 2016-09-01 DOI:10.1109/FAS-W.2016.59

Cesar A. García-Pérez, P. Merino

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引用次数: 27

Abstract

The upcoming 5G technologies promise to enable ultra low latency services such as remote robotics, augmented reality or vehicle to vehicle communications. Fog and MEC computing can enable low latency services for many different scenarios by moving the cloud and some network functions closer to the user. In the case of mobile networks this improvement is traditionally introduced in the reference point that defines the limit of the operator domain. In this paper we explore the introduction of an intermediate component in the LTE standard architecture, describing its functionality and providing experimental results on its use. This component, called Fog Gateway, can process the data plane for specific services to prevent all the traffic reaching the core network. The gateway analyzes the GTP traffic inner destination IP in order to determine whether to route the packet to the fog network or forward it to the destination SGW. The solution is compliant with standard LTE equipment all along the path (UE, eNodeB, EPC), so it can be implemented in current networks, and the preliminary figures, obtained combining emulated and COTS equipment, show an improvement of up to the 78% in terms of latency reduction.

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在LTE网络上启用低延迟业务

即将到来的5G技术有望实现超低延迟服务，如远程机器人、增强现实或车对车通信。雾和MEC计算可以通过将云和一些网络功能移动到离用户更近的地方，为许多不同的场景提供低延迟服务。在移动网络的情况下，这种改进传统上是在定义运营商域限制的参考点中引入的。在本文中，我们探讨了LTE标准体系结构中中间组件的引入，描述了其功能并提供了其使用的实验结果。该组件称为雾网关，可以处理特定业务的数据平面，以防止所有流量到达核心网。网关通过分析GTP流量的内部目的IP地址，决定是将报文路由到雾网，还是转发到目的SGW。该方案全程兼容标准LTE设备(UE、eNodeB、EPC)，可在现有网络中实现，结合仿真设备和COTS设备获得的初步数据显示，时延降低幅度高达78%。

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 1st International Workshops on Foundations and Applications of Self* Systems (FAS*W)

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