A testbed for flexible and energy-efficient resource management with virtualized LTE-A nodes

2017 Fifth International Workshop on Cloud Technologies and Energy Efficiency in Mobile Communication Networks (CLEEN) Pub Date : 2017-06-22 DOI:10.23919/CLEEN.2017.8045910

N. Iardella, G. Nardini, G. Stea, A. Virdis, A. Frangioni, L. Galli, D. Sabella, F. Mauro, G. Dell'Aera, M. Caretti

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引用次数: 2

Abstract

This paper describes the software architecture and the implementation of a fully operational testbed that demonstrates the benefits of flexible, dynamic resource allocation with virtualized LTE-A nodes. The testbed embodies and specializes the general software architecture devised within the Flex5Gware EU project, and focuses on two intelligent programs: the first one is a Global Scheduler, that coordinates radio resource allocation among interfering nodes; the second one is a Global Power Manager, which switches on/off nodes based on their expected and measured load over a period of minutes. The software framework is written using open-source software, and includes fast, scalable optimization algorithms at both components. Moreover, it supports virtualized BaseBand Units, implemented using OpenAir-Interface, that can run on physical and virtual machines. We present the results obtained via on-field measurements, that demonstrate the feasibility and benefits of our approach.

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通过虚拟化LTE-A节点实现灵活节能的资源管理测试平台

本文描述了软件架构和一个完全可操作的测试平台的实现，该测试平台展示了虚拟化LTE-A节点灵活、动态资源分配的好处。该测试平台体现并专业化了Flex5Gware EU项目设计的通用软件架构，重点关注两个智能程序:第一个是全局调度程序，用于协调无线电资源在干扰节点之间的分配;第二个是全局电源管理器，它在几分钟内根据节点的预期和测量负载打开/关闭节点。软件框架是使用开源软件编写的，在两个组件上都包含快速、可扩展的优化算法。此外，它支持使用OpenAir-Interface实现的虚拟化基带单元，可以在物理机和虚拟机上运行。我们介绍了通过现场测量获得的结果，证明了我们的方法的可行性和效益。

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

2017 Fifth International Workshop on Cloud Technologies and Energy Efficiency in Mobile Communication Networks (CLEEN)

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