Proceedings ArticleDOI
Indoor and Outdoor Experiments on 5G Radio Access Using Distributed MIMO and Beamforming in 15 GHz Frequency Band
Daisuke Kurita,Kiichi Tateishi,Atsushi Harada,Yoshihisa Kishiyama,Shoji Itoh,Hideshi Murai,Arne Simonsson,Peter Ökvist +7 more
- pp 1-6
TLDR
Indoor and outdoor field experimental results that clarify the 4-by-8 MIMO throughput performance when applying distributed multiple-input multiple-output (MIMO) with a narrow antenna beam tracking in the 15 GHz frequency band in the downlink of a 5G cellular radio access system are presented.Abstract:
This paper presents indoor and outdoor field experimental results that clarify the 4-by-8 MIMO throughput performance when applying distributed multiple-input multiple-output (MIMO) with a narrow antenna beam tracking in the 15 GHz frequency band in the downlink of a 5G cellular radio access system. The experimental results show that throughput exceeding 15 Gbps is achieved with a high average rank of 4 at an indoor office building lobby and outdoor parking area. As for the distributed MIMO gain in terms of throughput in LoS environments, we achieve throughput gain of 39 % and 105 % in the indoor office building lobby and outdoor parking area, respectively. And also throughput gain of 15 % is achieved in N-LoS environment in office building lobby in multi-path rich environment. We also observe a significant increase of throughput and rank when changing the transmission point (TP) spacing from 0.5 to 1.5 m, while only a limited performance improvement when the TP spacing exceeds 1.5 m. Finally, the throughput performance with various TP positions was tested, and the TP locations when facing each other with a TP spacing of 50 m exhibit excellent performance exceeding 10 Gpbs.read more
Citations
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Journal ArticleDOI
Millimeter-Wave Base Station Diversity for 5G Coordinated Multipoint (CoMP) Applications
TL;DR: Results show that the coordination can improve network performance by suppressing interference when it exists, and that macrodiversity alone may offer sufficient link and capacity improvement and that CoMP may not be necessary for interference coordination at mmWave when narrow directional beams are used.
Proceedings ArticleDOI
5G NR Testbed 3.5 GHz Coverage Results
TL;DR: With beamforming the increased propagation losses at 3.5 GHz compared to 2.1 GHz can be compensated and the coverage was demonstrated to be on par with 2.
Proceedings ArticleDOI
Propagation channel characterization for 28 and 73 GHz millimeter-wave 5G frequency band
TL;DR: The results show that the 28 and 73 GHz frequency band is able to deliver up to 80 and 170% of enormous improvement in average cell throughput respectively as compared to currently LTE-A frequency band.
Proceedings ArticleDOI
Characterization of MIMO propagation channel at 15 GHz for the 5G spectrum
Faizan Qamar,Talib Abbas,Mhd Nour Hindia,Kaharudin Dimyati,Kamarul Ariffin Noordin,Irfan Ahmed +5 more
TL;DR: The paper paved the path for 15 GHz to be set as a viable option when considering future 5G networks due to its ability to provide ample amount of throughput due to the diversity of multiple antennas for transmission.
Proceedings ArticleDOI
High-Speed Beam Tracking Demonstrated Using a 28 GHz 5G Trial System
Kjell Larsson,Bjoern Halvarsson,Damanjit Singh,Ranvir Chana,Jawad Manssour,Minsoo Na,Changsoon Choi,Sungho Jo +7 more
TL;DR: Measurement results are presented from high speed vehicle tests using a 5G radio access test system with beam tracking operating at a carrier frequency of 28 GHz, where transmission point (TP) switching, beam tracking and operation at high vehicle speeds were successfully demonstrated.
References
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Millimeter-wave beamforming as an enabling technology for 5G cellular communications: theoretical feasibility and prototype results
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TL;DR: This article presents recent results from channel measurement campaigns and the development of advanced algorithms and a prototype, which clearly demonstrate that the mmWave band may indeed be a worthy candidate for next generation (5G) cellular systems.
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TL;DR: In this article, the authors focus on LTE with full updates including LTE-Advanced to provide a complete picture of the LTE system, including the physical layer, access procedures, broadcast, relaying, spectrum and RF characteristics, and system performance.
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TL;DR: Systemlevel simulation results show that with the right access point deployment peak rates of over 15 Gbps are possible at Mmwave along with a cell edge experience in excess of 400 Mbps, and proposes null cyclic prefix single carrier as the best candidate for Mm wave communications.
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TL;DR: An overview of the views on the requirements, concept and promising technologies for 5G radio access, in addition to the ongoing activities for paving the way toward the realization of 5G by 2020 are introduced.
Proceedings ArticleDOI
Field experiments on 5G radio access using 15-GHz band in outdoor small cell environment
Kiichi Tateishi,Daisuke Kunta,Atsushi Harada,Yoshihisa Kishryama,Stefan Parkvall,Erik Dahlman,Johan Furuskog +6 more
TL;DR: Outdoor field experimental results showing the achievement of 3-Gbps throughput performance based on 400-MHz bandwidth transmission when applying carrier aggregation with 4 component carriers and 4-by-4 single-user multiple-in multiple-out multiplexing in the 15-GHz frequency band in the downlink of 5G cellular radio access is presented.