Lens-Based Beamformer for Low-Complexity Millimeter-Wave Cellular Systems
(2018) The 8th ESA Workshop on Millimetre-Wave Technology and Applications- Abstract
- Data rate requirements for cellular communications are expected to increase 1000–fold by 2020, compared to 2010. This is mainly because of the rapid increase in the number of wireless devices and data hungry applications per–device. This creates a formidable bandwidth crisis. Milimeter–wave (mmWave) systems with massive multiple–input multiple–output (MIMO) operation are two complementary concepts poised to meet this exploding demand, as verified by the wealth of investigations by both industry and academia. Nevertheless, existing MIMO processing techniques, requiring a dedicated radio–frequency (RF) up/down–conversion chain per antenna, results in prohibitively high complexity and cost of the mmWave prototypes. The primary objective of... (More)
- Data rate requirements for cellular communications are expected to increase 1000–fold by 2020, compared to 2010. This is mainly because of the rapid increase in the number of wireless devices and data hungry applications per–device. This creates a formidable bandwidth crisis. Milimeter–wave (mmWave) systems with massive multiple–input multiple–output (MIMO) operation are two complementary concepts poised to meet this exploding demand, as verified by the wealth of investigations by both industry and academia. Nevertheless, existing MIMO processing techniques, requiring a dedicated radio–frequency (RF) up/down–conversion chain per antenna, results in prohibitively high complexity and cost of the mmWave prototypes. The primary objective of this paper is to present a complete feasibility study on alternative beamforming techniques targeted to reduce the system complexity without drastically compromising its performance. More precisely, at 28 GHz, we investigate the end–to–end performance of two different lens–based beamforming topologies. Our study is an amalgam of theoretical modelling, electromagnetic design, and prototype manufacturing, yielding a comprehensive mmWave, massive MIMO performance evaluation. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/3c43bac7-6f58-4e94-b179-b9a1ea718088
- author
- Abbasi, Muhammad Ali Babar ; Fusco, Vincent F ; Tataria, Harsh LU and Matthaiou, Michail
- publishing date
- 2018
- type
- Chapter in Book/Report/Conference proceeding
- publication status
- published
- subject
- keywords
- 2D Rotman lens arrays, Hybrid beamforming, Low-complexity systems, Millimeter-wave systems, Massive MIMO
- host publication
- The 8th ESA Workshop on Millimetre-Wave Technology and Applications
- pages
- 4 pages
- conference name
- The 8th ESA Workshop on Millimetre-Wave Technology and Applications
- conference location
- Noordwijk, Netherlands
- conference dates
- 2018-12-10 - 2018-12-12
- language
- English
- LU publication?
- no
- id
- 3c43bac7-6f58-4e94-b179-b9a1ea718088
- date added to LUP
- 2018-12-06 19:20:32
- date last changed
- 2021-03-17 08:50:47
@inproceedings{3c43bac7-6f58-4e94-b179-b9a1ea718088, abstract = {{Data rate requirements for cellular communications are expected to increase 1000–fold by 2020, compared to 2010. This is mainly because of the rapid increase in the number of wireless devices and data hungry applications per–device. This creates a formidable bandwidth crisis. Milimeter–wave (mmWave) systems with massive multiple–input multiple–output (MIMO) operation are two complementary concepts poised to meet this exploding demand, as verified by the wealth of investigations by both industry and academia. Nevertheless, existing MIMO processing techniques, requiring a dedicated radio–frequency (RF) up/down–conversion chain per antenna, results in prohibitively high complexity and cost of the mmWave prototypes. The primary objective of this paper is to present a complete feasibility study on alternative beamforming techniques targeted to reduce the system complexity without drastically compromising its performance. More precisely, at 28 GHz, we investigate the end–to–end performance of two different lens–based beamforming topologies. Our study is an amalgam of theoretical modelling, electromagnetic design, and prototype manufacturing, yielding a comprehensive mmWave, massive MIMO performance evaluation.}}, author = {{Abbasi, Muhammad Ali Babar and Fusco, Vincent F and Tataria, Harsh and Matthaiou, Michail}}, booktitle = {{The 8th ESA Workshop on Millimetre-Wave Technology and Applications}}, keywords = {{2D Rotman lens arrays; Hybrid beamforming; Low-complexity systems; Millimeter-wave systems; Massive MIMO}}, language = {{eng}}, title = {{Lens-Based Beamformer for Low-Complexity Millimeter-Wave Cellular Systems}}, url = {{https://lup.lub.lu.se/search/files/55235909/ESA_2018_Lens_v4.pdf}}, year = {{2018}}, }