Full-Duplex System Design for 5G Access

5G Networks: Fundamental Requirements, Enabling Technologies, and Operations Management Pub Date : 2018-09-14 DOI:10.1002/9781119333142.CH3

Shu-ping Yeh, Jingwen Bai, Ping Wang, F. Xue, Yang-Seok Choi, S. Talwar, Sung-En Chiu, Vinod Kristem

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引用次数: 2

Abstract

In order to meet the new requirements of 5G networks and to overcome the limits in nowadays systems, it is anticipated that revolutionary technologies, including full‐duplex (FD), should be introduced to existing and evolving systems, like LTE‐A and Wi‐Fi. This chapter reviews the self‐interference cancellation technologies that enable full‐duplex operation. It provides a general overview of system design challenges for full‐duplex cellular systems with an emphasis on interference complications for FD small cell access. The chapter presents practical interference mitigation schemes to treat base station (BS)‐to‐BS and UE‐to‐UE interferences, including null beam forming, uplink (UL) power control, joint intracell scheduler, channel quality indicator (CQI) feedback, and reference signal design. It demonstrates the system performance with the proposed design in full‐duplex system‐level‐simulator, by considering various indoor/outdoor scenarios using 3GPP models. The chapter also demonstrates that with proper interference mitigation, more than 1.7 × spectrum efficiency gains can be achieved in FD networks.

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5G接入全双工系统设计

为了满足5G网络的新要求并克服当前系统中的限制，预计应该将包括全双工(FD)在内的革命性技术引入现有和正在发展的系统，如LTE‐A和Wi‐Fi。本章回顾了实现全双工操作的自干扰消除技术。它提供了全双工蜂窝系统的系统设计挑战的总体概述，重点是FD小蜂窝接入的干扰复杂性。本章介绍了实际的干扰缓解方案，以处理基站(BS)对BS和终端对终端的干扰，包括零波束形成、上行链路(UL)功率控制、联合小区内调度程序、信道质量指示器(CQI)反馈和参考信号设计。它通过使用3GPP模型考虑各种室内/室外场景，在全双工系统级模拟器中演示了系统性能。本章还表明，通过适当的干扰抑制，可以在FD网络中获得超过1.7倍的频谱效率增益。

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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5G Networks: Fundamental Requirements, Enabling Technologies, and Operations Management

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