Distributed antenna wireless communication system coverage design and field trial over higher frequency band
This paper aims to examine the architecture design of a distributed antenna based Gbps wireless communication system using the high frequency band.In order to analyze the feasibility of the higher frequency band applications,the cumulative distribution of simulated user throughput in a cellular is investigated firstly.It shows that capacity improvement can be obtained using higher operating frequency band,especially in hotspot scenarios.Secondly,the architecture of the distributed antenna system(DAS)is introduced to overcome the disadvantages of weak coverage and rank deficient for the traditional multiple-input multiple-output(MIMO)systems using higher frequency bands in line-of-sight(LOS)environments.In addition,a software-defined-radio(SDR)based Gbps wireless transmission system with scalable hardware architecture is designed and implemented.Finally,a demo of outdoor DAS coverage for high data throughput application is given.Field trials show that I Gbps data rate and a large coverage in outdoor environments can be achieved over 6.05 GHz.It is proved that the Gbps DAS system at a higher frequency band can be a successful model for future wireless broadband coverage in hotspot scenarios.
higher frequency band capacity testbed distributed antenna system (DAS)
Xu Zhan Liu Jienan Zhou Shidong Chen Xiang Wang Wenqi
Beijing Information Science & Technology University,Beijing 100192,China University of Georgia,Athens,GA,30602,USA Tsinghua University,Beijing 100084,China Sun Yat-sen University,Guangzhou 510006,China
国内会议
南京
英文
131-138
2016-10-01(万方平台首次上网日期,不代表论文的发表时间)