上行分布式绿色天线系统的中断性能分析

M. Mishra, Parag Aggarwal, A. Trivedi, K. K. Pattanaik
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摘要

随着高数据速率应用的指数级增长,蜂窝网络需要消耗大量的能量来保证更好的服务质量(QoS)。因此,在能源有限、传输行为环保的背景下,高效节能的无线通信越来越受到人们的重视。近年来,分布式天线系统(DAS)在减少下一代蜂窝网络的传输功率和中断方面显示出巨大的潜力。以往的研究大多没有考虑移动站和DAS的随机位置。本文提出了基于随机几何的分布式绿色天线系统(DGAS)模型来分析蜂窝系统的性能。此外,考虑上行链路DGAS,其中MS的位置根据齐次泊松点过程(HPPP)进行分布,每个MS与最近的分布式绿天线(DGA)相关联。进一步推导了在路径损耗和瑞利衰落信道下的中断概率和面积谱效率表达式。对干扰限制系统的分析结果表明,随着目标能谱与目标能谱之间的距离增大,系统的中断概率增大。
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Analytical outage performance of uplink distributed green antenna system
With exponential growth of high data rate applications, significant energy is consumed in cellular networks to guarantee better quality of service (QoS). Therefore, energy efficient wireless communication is being paid increasing attention under the background of limited energy resource and environmental-friendly transmission behaviors. Recently, distributed antenna system (DAS) has shown great potential for reducing transmission power and outage for next generation cellular networks. Previously, most of the researches have not considered the random locations of both the mobile stations (MSs) and the DAS. In this paper, we suggest stochastic geometry based distributed green antenna system (DGAS) model to analyze the performance of the cellular system. Moreover, uplink DGAS is considered where MSs' locations are distributed according to homogenous Poisson point process (HPPP) and each MS is associated to the closest distributed green antenna (DGA). Further, the expressions for outage probability and the area spectral efficiency are derived over path loss and Rayleigh fading channel. Analytical results for the interference limited system show that as the distance between MS and DGA of interest increases, outage probability of the system increases.
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