%0 Journal Article
%T 面向6G的宽带多波束无线通信原型系统设计
A Design of 6G Oriented Broadband Multi-Beam Wireless Communication Prototype System
%A 田佳辰
%A 姚志伟
%A 郑奕飞
%A 郑怀瑾
%A 凌泰炀
%A 王闻今
%A 李潇
%J Hans Journal of Wireless Communications
%P 113-122
%@ 2163-3991
%D 2021
%I Hans Publishing
%R 10.12677/HJWC.2021.114013
%X 面对B5G和6G时代巨流量、巨连接的通信业务需求,宽带动态多波束技术利用高频段的频谱资源并结合动态多波束控制技术,能够在现有多波束技术的基础上进一步挖掘空间维度资源,提升服务质量,已成为下一代移动通信系统的关键技术之一,将广泛应用在地面宽带通信和卫星通信中。本文设计了一种可融合动态波束成形算法的宽带多波束无线通信原型系统。该系统包括基站侧和用户侧,其中基站侧由多核X86通用服务器、RFSoC、射频相控阵天线以及高速接口等硬件单元构成,可实现多波束控制及其他基带信号处理功能,采用了X86与FPGA融合计算架构实现无线基带算法部署。本系统支持智能动态波束成形,并具有带宽大、吞吐量高、算法快速部署等优点,可以应用于面向6G的通信技术开发和智能通信算法的快速集成验证。
Facing the challenge of communication business with huge traffic and connection demand in the B5G and 6G era, broadband dynamic multi-beam communication is one of the key candidates to be included in the next generation cellular systems and satellite communication systems, which utilizes the broadband characteristics of high frequency band and further taps spatial dimension resources, so as to improve quality of service (QoS). In this paper a broadband multi-beam wireless communication prototype system combined with dynamic multi-beam control is proposed, in which both base station side and user side are in consideration. On the base station side, hardware architectures including X86 universal servers, RFSoCs, RF phased array antennas and high-speed interfaces are implemented, available for dynamic multi-beam control and other baseband signal processing functions. Wireless baseband algorithms are implemented in a fusion computing architecture of X86 servers and FPGA. The unique features of this system are dynamic multi-beam forming, large bandwidth, high throughput and high development flexibility for algorithms. This prototype system will be of great significance to 6G oriented system development, as well as be applied in rapid development and verification of intelligent algorithms.
%K 6G,多波束通信,原型系统,卫星通信,智能通信
6G
%K Multi-Beam Communication
%K Prototype System
%K Satellite Communication
%K Intelligent
Communication
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=43827