Enabling Edge Computing Deployment in 4G and Beyond

2020 6th IEEE Conference on Network Softwarization (NetSoft) Pub Date : 2020-06-01 DOI:10.1109/NetSoft48620.2020.9165384

R. Bruschi, F. Davoli, G. Lamanna, C. Lombardo, S. Mangialardi, Jane Frances Pajo

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引用次数: 2

Abstract

While the integration of fourth-generation (4G) networks with Edge Computing technologies would anticipate the improvements foreseen by the coming of 5G, as well as smoothen the transition to the new technology, 4G does not natively support Edge Computing. Therefore, specific functionalities for user-plane integration and isolation of tenant spaces are required for effectively deploying Edge Computing in 4G networks. This paper describes the design of the end-point between the mobile and edge environments that has been integrated in the telecom layer platform of the MATILDA Project. Such end-point, designed in a Virtual Network Function (VNF), allows intercepting and forwarding data and control traffic towards external Data Networks. Instances of this VNF can be horizontally scaled according to a decision policy, which determines the minimum number of instances required for the current load. Results show that the latency ascribable to the VNF processing is sufficiently low to satisfy the delay budget for all 5G use cases up to 10 ms and that the decision policy based on the QoS Class Identifiers (QCIs) allows scaling with the traffic load, while still fulfilling the performance requirements of each application.

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在4G及以后实现边缘计算部署

虽然第四代(4G)网络与边缘计算技术的集成可以预见5G即将到来的改进，并使向新技术的过渡更加平稳，但4G本身并不支持边缘计算。因此，为了在4G网络中有效地部署边缘计算，需要用户平面集成和租户空间隔离的特定功能。本文介绍了MATILDA项目电信层平台中集成的移动和边缘环境之间端点的设计。这种终端在虚拟网络功能(VNF)中设计，可以拦截和转发数据，并控制流向外部数据网络的流量。这个VNF的实例可以根据决策策略进行水平伸缩，决策策略决定当前负载所需的最小实例数。结果表明，VNF处理的延迟足够低，可以满足所有5G用例的延迟预算(最高10 ms)，并且基于QoS类标识符(qci)的决策策略允许随流量负载扩展，同时仍然满足每个应用程序的性能要求。

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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2020 6th IEEE Conference on Network Softwarization (NetSoft)

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