Real-time Coordinated Scheduling for Cloud Radio Access Networks in a Software-only Environment using the OpenAirInterface Platform

Q4 Engineering

Ingenieria y Universidad Pub Date : 2021-10-12 DOI:10.11144/javeriana.iued25.rcsc

Luis Felipe Ariza-Vesga, Johan Sebastian Eslava-Garzon

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引用次数: 0

Abstract

The objective of this paper is to extend into the OpenAirInterface platform the Coordinated Scheduling (CS) technique to allocate resource blocks among User Equipment (UE) in a wisely way and to control the energy efficiency, the throughput, and the inter-cell interference for Cloud Radio Access Networks (C-RANs). It is achieved by modifying the OpenAirInterface scheduler code, increasing the Remote Radio Unit (RRU) scalability, and employing some component carriers of the Radio Cloud Center (RCC), each one them with one or more UEs. The hardware utilized is composed of general-purpose processors and fast Ethernet transport ports, and the software is recent frequency-domain methodologies in a software-only environment where the use of radio units are not required. However, the USRP B200 mini-i radio unit and the UE (Samsung Galaxy S8) were considered only for validation purposes. The emulations using frequency-domain methodologies, compatible with fourth and fifth-generation cellular systems, allowed real-time emulations and reduced 10-fold the multipath channel’s signal processing complexity compared to time-domain methodologies. The results show we can emulate a real-time static coordinated scheduling proof-of-concept for one C-RAN composed of one RCC, three RRUs, and three UEs. In the end, it is evaluated the reproducibility and the scalability of synthetic networks composed of one RRU and at least one UE, without using software-defined radio units, reducing prototyping uncertainties of the physical hardware and the total price of the experiment.

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基于OpenAirInterface平台的纯软件环境下云无线接入网的实时协调调度

本文的目标是将协调调度(CS)技术扩展到OpenAirInterface平台，以明智的方式在用户设备(UE)之间分配资源块，并控制云无线接入网(c - ran)的能效、吞吐量和小区间干扰。它是通过修改OpenAirInterface调度器代码，增加远程无线电单元(RRU)的可扩展性，并采用无线电云中心(RCC)的一些组件载波来实现的，每个组件载波都有一个或多个ue。所使用的硬件由通用处理器和快速以太网传输端口组成，软件是在不需要使用无线电单元的纯软件环境中使用的最新频域方法。然而，USRP B200 mini-i无线电装置和UE(三星Galaxy S8)仅用于验证目的。仿真使用的频域方法与第四代和第五代蜂窝系统兼容，允许实时仿真，与时域方法相比，将多径信道的信号处理复杂性降低了10倍。结果表明，我们可以模拟一个由一个RCC、三个rru和三个ue组成的C-RAN的实时静态协调调度概念验证。最后，在不使用软件定义无线电单元的情况下，评估了由一个RRU和至少一个UE组成的合成网络的可重复性和可扩展性，减少了物理硬件的原型不确定性和实验的总价格。

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

Ingenieria y Universidad Engineering-Engineering (all)

CiteScore

0.80

自引率

0.00%

发文量

期刊介绍： Our journal''s main objective is to serve as a medium for the diffusion and divulgation of the articles and investigations in the engineering scientific and investigative fields. All the documents presented as result of an investigation will be received, as well as any review about engineering, this includes essays that might contribute to the academic and scientific discussion of any of the branches of engineering. Any contribution to the subject related to engineering development, ethics, values, or its relations with policies, culture, society and environmental fields are welcome. The publication frequency is semestral.