Trends and challenges for autonomic RRM and MAC functionality for QoS provision and capacity expansions in the context of 5G beyond 6GHz

2017 European Conference on Networks and Communications (EuCNC) Pub Date : 2017-06-12 DOI:10.1109/EuCNC.2017.7980748

I. Belikaidis, A. Georgakopoulos, P. Demestichas, U. Herzog, K. Moessner, S. Vahid, M. Fitch, K. Briggs, B. Miscopein, Bismark Okyere, V. Frascolla

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引用次数: 3

Abstract

In currently deployed wireless networks, the lack of dynamic control across wireless resources leads to suboptimized and unbalanced spectrum loads, especially in below 6GHz bands, which in turn creates a (perceived) capacity bottleneck in end users. This issue can be addressed through the adoption of the eDSA (extended Dynamic Spectrum Access) paradigm, which consists of enhanced resource management techniques with three degrees of freedom: densification, rationalized traffic allocation over heterogeneous wireless technologies, and better load balancing across the available spectrum. The objective of this paper, triggered by the ongoing work in the SPEED-5G research project, is twofold: i) present a survey of the most promising enhanced techniques for 5G networks at MAC and RRM level, and ii) propose inter-RAT mechanisms to cope with the above mentioned issues, mainly focusing on access aspects of the next-generation networks in below and above 6GHz bands.

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在超过6GHz的5G背景下，用于QoS提供和容量扩展的自主RRM和MAC功能的趋势和挑战

在目前部署的无线网络中，缺乏对无线资源的动态控制导致频谱负载不优化和不平衡，特别是在6GHz以下频段，这反过来又在最终用户中造成(可感知的)容量瓶颈。这个问题可以通过采用eDSA(扩展动态频谱接入)范例来解决，该范例包括具有三个自由度的增强资源管理技术:致密化、异构无线技术上的合理流量分配以及在可用频谱上更好的负载均衡。本文的目标是由SPEED-5G研究项目中正在进行的工作引发的，其目标有两个:1)在MAC和RRM级别对5G网络最有前途的增强技术进行调查;2)提出跨rat机制来应对上述问题，主要关注6GHz以下和6GHz以上频段下一代网络的接入方面。

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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2017 European Conference on Networks and Communications (EuCNC)

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