Massive Connection Aware Effective Rate Optimization in NOMA Based Small Cell Networks

2019 IEEE 19th International Conference on Communication Technology (ICCT) Pub Date : 2019-10-01 DOI:10.1109/ICCT46805.2019.8947194

Min Hui, Jian Chen, Long Yang

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Abstract

NOMA based small cell network is a promising framework to support massive connection and high throughput. In this paper, massive connection requirement is taken into account in a downlink NOMA based small cell network, where the locations of small cell base stations and UEs are modeled by stochastic geometry. To evaluate the performance of the network, we adopt effective rate as a novel metric for overhead as well as validation reasons. In addition, an effective rate maximization problem by jointly optimize power allocation (PA) and QoS requirements is formulated. We propose to decouple the original problem into power allocation random initialization subproblem and effective rate enhancement subproblem, in order to develop a suboptimal resource allocation algorithm. Finally, the effectiveness and convergence of the proposed algorithm are confirmed by numerical results. We show that: 1) optimal solutions prefer to assign higher target SINR requirements to some UEs with worse channel condition from a perspective of whole UE cluster; 2) the random PA initialization has significant effect on the performance of the algorithm.

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基于NOMA的小蜂窝网络大规模连接感知效率优化

基于NOMA的小蜂窝网络是一种很有前途的支持大连接和高吞吐量的网络框架。本文考虑了基于下行NOMA的小蜂窝网络的海量连接需求，采用随机几何模型对小蜂窝基站和终端的位置进行建模。为了评估网络的性能，我们采用有效率作为开销和验证原因的新度量。此外，还提出了通过共同优化功率分配(PA)和QoS要求来实现有效速率最大化的问题。我们提出将原问题解耦为功率分配随机初始化子问题和效率增强子问题，以开发次优资源分配算法。最后，通过数值结果验证了该算法的有效性和收敛性。研究表明:1)从整个终端集群的角度来看，最优解倾向于为信道条件较差的终端分配更高的目标信噪比要求;2)随机PA初始化对算法性能有显著影响。

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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2019 IEEE 19th International Conference on Communication Technology (ICCT)

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