Interference Mitigation for Device-to-Device based Cellular Communications

2022 32nd International Telecommunication Networks and Applications Conference (ITNAC) Pub Date : 2022-11-30 DOI:10.1109/ITNAC55475.2022.9998405

S. Acar, Berna Özbek

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Abstract

Device-to-device (D2D) communication underlaying cellular networks can improve the performance of cellular systems and it provides an effective way to meet growing mobile traffic and capacity demand. When user equipments are located in close proximity, they can communicate through direct links. In this case, D2D links can increase both energy and spectrum efficiency by reusing uplink (UL) cellular resources while satisfying the users' quality-of-service requirements. However, integrating D2D links into the cellular infrastructure causes an interference since D2D communication can increase co-channel interference and degrade cellular users' transmission link quality. In this paper, the interference mitigation techniques including power control, multiple antenna and resource allocation based on graph coloring are proposed for D2D communications underlaying cellular systems to increase the data rate of both the cellular users and D2D pairs. Compared to the prior works, in the proposed algorithm, D2D and cellular users have same priority for resource allocation. Finally, the proposed algorithm improves the overall system capacity significantly.

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基于设备对设备的蜂窝通信的干扰缓解

基于蜂窝网络的设备对设备(D2D)通信可以提高蜂窝系统的性能，为满足日益增长的移动流量和容量需求提供了有效途径。当用户设备位于近距离时，它们可以通过直接链接进行通信。在这种情况下，D2D链路可以在满足用户业务质量要求的同时，通过重用上行链路(UL)蜂窝资源，提高能量和频谱效率。然而，将D2D链路集成到蜂窝基础设施中会产生干扰，因为D2D通信会增加同信道干扰并降低蜂窝用户的传输链路质量。本文针对蜂窝系统底层的D2D通信，提出了功率控制、多天线和基于图着色的资源分配等抗干扰技术，以提高蜂窝用户和D2D对的数据速率。与之前的工作相比，在本文算法中，D2D和蜂窝用户具有相同的资源分配优先级。最后，该算法显著提高了系统的整体容量。

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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2022 32nd International Telecommunication Networks and Applications Conference (ITNAC)

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