Design of massive distributed antenna systems in 5G networks

5G网络中大规模分布式天线系统设计

• 批准号: 514653-2017
• 负责人: Adve, Raviraj
• 金额: $ 1.29万
• 依托单位: University of Toronto
• 依托单位国家: 加拿大
• 项目类别: Collaborative Research and Development Grants
• 财政年份: 2018
• 资助国家: 加拿大
• 起止时间: 2018-01-01 至 2019-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=643503
• 关键词: Design; massive; distributed; antenna; systems

Mobile networks are currently in an era of unprecedented traffic growth and consumer interest. Globally, mobile data traffic grew 74% in 2015 to 3.7 exabytes per month - and is further expected to grow by a factor of nine to 30.6 exabytes per month in 2020. However, the bandwidth available to wireless network providers is growing extremely slowly. To account for the mismatch between supply and demand, the upcoming fifth generation (5G) of networks must be orders of magnitude more capable and reliable. Furthermore, equipment manufacturers, such as our partner, Ericsson Canada, are well aware of the need to mitigate the rapid increase in the energy consumed by wireless networks. Addressing these challenges will require increasingly diversified technologies, including heterogeneous networks, densification, massive multiple-input, multiple output *(MIMO) technology, and possibly millimeter-wave systems. In this regard, the release of the first 5G standard, expected in mid-2017, will mark the beginning of a new phase in on-going research efforts. ****Focusing on 5G networks, this proposal focuses on massive distributed antenna systems (DAS) or distributed massive MIMO (DM-MIMO) systems. The term "distributed antennas systems" refers to a group of geographically distributed remote radio heads (RRHs), each with a single antenna or just a few antennas, coordinating transmissions to groups of users. The key benefit of DAS is the relative uniformity in coverage (as antennas are distributed across the coverage area) and increased robustness against fading including, importantly, shadowing (since users are able to connect to multiple, spatially distributed, RRHs simultaneously). However, greatly expanding the number of RRHs raises enormous challenges in both theoretical analyses and practical designs. It is this challenge that we hope to address.

移动的网络目前正处于前所未有的业务增长和消费者兴趣的时代。在全球范围内，移动的数据流量在2015年增长了74%，达到每月3.7艾字节，预计到2020年将进一步增长9倍，达到每月30.6艾字节。然而，无线网络提供商可用的带宽增长非常缓慢。为了解决供需之间的不匹配，即将到来的第五代（5G）网络必须具有更强大和更可靠的数量级。此外，设备制造商，如我们的合作伙伴爱立信加拿大公司，都非常清楚需要缓解无线网络能耗的快速增长。应对这些挑战将需要越来越多样化的技术，包括异构网络、密集化、大规模多输入多输出（MIMO）技术，以及可能的毫米波系统。在这方面，预计将于2017年年中发布的首个5G标准将标志着正在进行的研究工作进入一个新阶段。* 针对5G网络，本提案重点关注大规模分布式天线系统（DAS）或分布式大规模MIMO（DM-MIMO）系统。术语“分布式天线系统”是指一组地理上分布式的远程无线电头端（RRH），每个RRH具有单个天线或仅几个天线，协调到用户组的传输。DAS的主要优点是覆盖范围的相对均匀性（因为天线分布在覆盖区域上）和增强的抗衰落鲁棒性，重要的是，包括阴影（因为用户能够同时连接到多个空间分布的RRH）。然而，大量增加RRH的数量在理论分析和实际设计中都提出了巨大的挑战。我们希望应对的正是这一挑战。