DC-RAN dynamic coverage methods to improve its performance

Wasit Journal of Engineering Sciences Pub Date : 2023-12-01 DOI:10.31185/ejuow.vol11.iss3.463

Abbas S.K. Al-Tamimi, Basim K. J. Al-Shammari

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Abstract

Abstract In cellular networks, there are usually times when the density of the network changes at different times of the day, where congested areas attract a large demand for communications and data, which generates peak demand at specific times of the day, and vice versa also happens in the same area but at another time of the day, and in order to meet the needs of this changing demand the network must keep pace with changes in the density of the areas served. This can only be done if the network has a dynamic ability to handle the change in traffic density and demand intensity, which requires turning on/off a certain number of Remote Radio Heads (RRHs) that represent the Radio Frequency (RF) front end of the mobile network. For the purpose of providing a reliable and acceptable telecommunications service to users and financially useful to network operators by rationing energy consumption and meeting the required needs, dynamic 5G networks can do this by relying on a Dynamic Cloud Radio Access Network (DC-RAN) that enables them to respond to demand variables by shifting several types of coverage cells into a single serviced area and stopping them when needed.

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提高 DC-RAN 性能的 DC-RAN 动态覆盖方法

文摘在蜂窝网络中,通常有时候网络的密度变化在一天的不同时刻,在拥挤地区吸引大型通信和数据需求,产生峰值需求在一天的特定时间,反之亦然也发生在同一地区,但在另一个时期,为了满足不断变化的需求的需求的网络必须跟上变化区域的密度。只有当网络具有处理流量密度和需求强度变化的动态能力时，才能做到这一点，这需要打开/关闭一定数量的远程无线电头(RRHs)，它们代表移动网络的射频(RF)前端。为了向用户提供可靠且可接受的电信服务，并通过限制能源消耗和满足所需需求，为网络运营商提供经济上有用的服务，动态5G网络可以通过依赖动态云无线接入网(DC-RAN)来实现这一目标，该网络通过将几种类型的覆盖单元转移到单个服务区域并在需要时停止它们，使它们能够响应需求变量。

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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Wasit Journal of Engineering Sciences

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