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首页> 外文会议>Proceedings of 4th IEEE International Conference on Applied System Invention >A study on M-CORD based architecture in traffic offloading for 5G-enabled multiaccess edge computing networks
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A study on M-CORD based architecture in traffic offloading for 5G-enabled multiaccess edge computing networks

机译:基于M-CORD的架构在支持5G的多路访问边缘计算网络的流量分流中的研究

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摘要

With the fast changing times, the use of communication media is changing faster. In the recent years, there is an excessive demand amongst the subscribers for seamless streaming and experiencing videos and other web contents via smart portable phones and gadgets. This scenario has led to a copious and prodigious increase in the network traffic. The content has to traverse across many accesses such as base station, network core and so on, to reach the smart devices. Moreover, it might cause augmented content latency, in specific scenarios the subscribers' request gets repudiated as a result of network congestion and also excessive load in the mobile operators' core network. Therefore, to solve these issues, we propose to develop a novel architecture that brings the computation to the proximity of the user in the 5G edge network. This novel approach allows us to use the internet related services with improved accuracy and low latency. However, an overloaded multi-access edge computing (MEC) system negates the benefits of these advancements, thus providing a degraded quality of experience to the user. So, we aim to develop MEC architecture such that it helps content providers use real-time radio access network information to smoothly and accurately serve context-aware services in the developing 5G network.
机译:随着时间的快速变化,通信媒体的使用也在变化。近年来,用户之间对通过智能便携式电话和小工具无缝流式传输和体验视频及其他Web内容的需求过高。这种情况导致网络流量大量增加。内容必须遍历许多访问,例如基站,网络核心等,才能到达智能设备。此外,这可能导致内容延迟增加,在特定情况下,由于网络拥塞以及移动运营商核心网络中的过多负载,导致订户的请求被拒绝。因此,为解决这些问题,我们建议开发一种新颖的架构,将计算带到5G边缘网络中用户的附近。这种新颖的方法使我们能够以更高的准确性和低延迟来使用与Internet相关的服务。但是,过载的多访问边缘计算(MEC)系统抵消了这些进步的好处,从而为用户提供了降低的体验质量。因此,我们旨在开发MEC架构,以帮助内容提供商使用实时无线电接入网络信息来平稳,准确地为发展中的5G网络中的情境感知服务提供服务。

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