NOMA Power Allocation for Minimizing System Outage under Rayleigh Fading Channel

Ömer Faruk Gemici, Ibrahim Hökelek, H. A. Çırpan
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引用次数: 1

Abstract

With the proliferation of the delay sensitive applications and services in cellular networks, the outage probability becomes an important metric that should be minimized to support the low latency requirement of the 5G network. In this paper, the analytical model is proposed to calculate the system outage probability as a closed form expression under the Rayleigh fading channel for the NOMA downlink system. We utilize the model to obtain the optimum power allocation that minimizes the system outage probability as a closed form expression. The accuracy of the proposed analytical model and optimum power allocation is validated by the Monte Carlo simulations. The numerical results show that the outage probability depends on the power allocation and the outage probability of OMA with the fractional power allocation is lower than NOMA with the optimum power allocation. The results indicate that the trade-off between the outage and spectral efficiency in NOMA should be carefully controlled to meet higher throughput and lower latency objectives of 5G.
瑞利衰落信道下最小化系统中断的NOMA功率分配
随着蜂窝网络中延迟敏感型应用和业务的激增,为了满足5G网络的低延迟要求,中断概率成为一个重要的度量指标,必须最小化中断概率。本文提出了将NOMA下行系统在瑞利衰落信道下的系统中断概率作为封闭形式表达式进行计算的解析模型。我们利用该模型以封闭形式表达出使系统停电概率最小的最优功率分配。通过蒙特卡罗仿真验证了所提分析模型和优化功率分配的准确性。数值结果表明,故障概率与功率分配有关,分数功率分配模式下的故障概率小于最优功率分配模式下的故障概率。结果表明,为了满足5G的高吞吐量和低延迟目标,应该仔细控制NOMA中中断和频谱效率之间的权衡。
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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