异构云无线接入网络中资源的动态分配

I. Boskov, A. Švigelj
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引用次数: 0

摘要

服务质量(QoS)网络的发展和自动化需要高效的动态资源分配算法。这些算法的主要目标是在保证有效利用网络资源的同时,提供满足单个用户QoS要求的服务。云无线接入网(C-RAN)是无线通信的未来发展方向,在当前的4G、5G和下一代网络中实现蜂窝无线接入子系统。在C-RAN架构中,基带单元(BBUs)驻留在一组虚拟基站中,这些虚拟基站通过高带宽、低延迟的前传网络与无线电远程控制器(RRHs)连接。C-RAN架构在集中资源池、网络灵活性和成本节约方面提供了显著的优势。在这项工作中,我们展示了一种异构C-RAN网络,该网络实现了动态资源分配算法,可在移动通信网络中实现最佳资源利用。C-RAN网络通过OpenStack实现,并使用Docker容器在LTE和GSM系统之间切换,同时算法计算可实现最高吞吐量的最佳资源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dynamic allocation of resources in a heterogeneous Cloud Radio Access Network
The development and automation of Quality of Service (QoS) networks requires efficient algorithms for dynamic resource allocation. The main goal of these algorithms is to provide services that meet the QoS requirements of individual users while ensuring efficient use of network resources. Cloud Radio Access Network (C-RAN) is a future direction in wireless communications to implement cellular radio access subsystems in current 4G, 5G and next generation networks. In the C-RAN architecture, the baseband units (BBUs) reside in a group of virtual base stations connected to the radio remote controllers (RRHs) through a high-bandwidth, low-latency front-haul network. The C-RAN architecture offers significant advantages in terms of centralized resource pooling, network flexibility, and cost savings. In this work, we demonstrate a heterogeneous C-RAN network that implements a dynamic resource allocation algorithm that enables optimal resource utilization in mobile communication networks. The C-RAN network is implemented with OpenStack and uses Docker containers to switch between LTE and GSM systems while the algorithm computes the optimal resources for the highest achievable throughput.
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