5G接入网络的能源效率:小蜂窝密度和高阶部门化

Abdelrahman Arbi, T. O’Farrell
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引用次数: 20

摘要

在本文中,我们评估了基于LTE技术的5G无线接入网络(RAN)的能源效率,并比较了两种增强RAN容量的小蜂窝部署策略。具体来说,我们比较了用小细胞致密化3扇形大细胞RAN和先升级到6扇形大细胞RAN,然后再用小细胞致密化。后一种策略已被4G网络运营商用于城市地区。本文采用能量消耗增益(ECG)作为性能指标。采用实际功耗模型对无线基站的功耗进行了估算。我们的研究结果表明,在3扇区宏小区无线局域网中部署小小区覆盖比在6扇区宏小区无线局域网中部署小小区覆盖更节能,尽管后者使用的小小区更少。进一步的能源节约可以通过实施适应性部门化技术来实现。根据现时的平均交通负荷,将有效的扇区数目由6个逐步减少至1个,可为6个扇区节省25%的能源。无论如何,有或没有纳入适应性部门化技术的三部门方案总是更节能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Energy efficiency in 5G access networks: Small cell densification and high order sectorisation
In this paper we evaluate the energy efficiency of a 5G radio access network (RAN) based on LTE technology when comparing two small cell deployment strategies to enhance the RAN capacity. Specifically, we compare densifying a 3-sector macrocell RAN with small cells against first upgrading to a 6-sector macrocell RAN before densifying with small cells. The latter strategy has been used in urban areas by 4G network operators. The energy consumption gain (ECG) is used as a figure of merit in this paper. The radio base station power consumption is estimated by using a realistic power consumption model. Our results show that deploying a small cell overlay in a 3-sector macrocell RAN is more energy efficient than deploying a small cell overlay in a 6-sector macrocell RAN even though the latter uses fewer small cells. Further energy savings can be achieved by implementing an adaptive sectorisation technique. An energy saving of 25% is achieved for 6-sectors when progressively decreasing the number of active sectors from 6 to 1 in accordance with the temporal average traffic load. Irrespective, the 3-sector option with or without incorporating the adaptive sectorisation technique is always more energy efficient.
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