Low Power Consumption Cluster Scheduling and Power Control Design for Non-Orthogonal Multiple Access Aided Down-Link IoT Networks

Furong Fang, Lin Zhang, Wenjun Chen, Jing Bian
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Abstract

In this paper, we study the power allocation and cluster scheduling in a downlink non-orthogonal multiple access (NOMA) network deployed with massive internet of things (IoT) devices with constraints of battery capacity. Our objective is to minimize the total transmit power while meeting the quality of service (QoS) demands for each IoT device. In the considered NOMA network, each cluster can multiplex the access of more than two IoT devices. We derive the minimum power allocated to every IoT device in each cluster with considerations of the QoS demands. Then we use the potential game model to characterize this NOMA network, and present a cluster scheduling scheme. Simulation results demonstrate that using the proposed algorithm, the consumed power is far less than the power consumed by the conventional orthogonal multiple access (OMA) scheme and the conventional NOMA scheme.
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非正交多址辅助下行物联网网络的低功耗集群调度和功耗控制设计
本文研究了具有电池容量约束的大规模物联网(IoT)下行链路非正交多址(NOMA)网络的功率分配和集群调度问题。我们的目标是尽量减少总发射功率,同时满足每个物联网设备的服务质量(QoS)需求。在考虑的NOMA网络中,每个集群可以复用两个以上物联网设备的访问。在考虑QoS需求的情况下,我们推导出分配给每个集群中每个IoT设备的最小功率。然后利用潜在博弈模型对该网络进行了表征,并提出了一种集群调度方案。仿真结果表明,使用该算法所消耗的功耗远远小于传统正交多址(OMA)和传统NOMA方案所消耗的功耗。
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