A Highly Efficient Algorithm for Phased-Array mmWave Massive MIMO Beamforming

With the rapid development of the mobile internet and the internet of things (IoT), the fifth generation (5G) mobile communication system is seeing explosive growth in data traffic. In addition, low-frequency spectrum resources are becoming increasingly scarce and there is now an urgent need to swit...

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Published in	Computers, materials & continua Vol. 69; no. 1; pp. 679 - 694
Main Authors	Abdulhadi Althuwayb, Ayman, Hashim, Fazirulhisyam, Terng Liew, Jiun, Khan, Imran, Woo Lee, Jeong, Ampoma Affum, Emmanuel, Ouahabi, Abdeldjalil, Jacques, S閎astien
Format	Journal Article
Language	English
Published	Henderson Tech Science Press 2021
Subjects	5G mobile communication Algorithms Beamforming Communications systems Complexity Computer architecture Computer Science Electronics Energy consumption Engineering Sciences Frequencies Frequency spectrum Hybrid systems Internet of Things Millimeter waves Mobile communication systems Power consumption Wireless networks mmWave phased array 5G antenna beamforming algorithm
Online Access	Get full text
ISSN	1546-2226 1546-2218 1546-2226
DOI	10.32604/cmc.2021.015421

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Abstract	With the rapid development of the mobile internet and the internet of things (IoT), the fifth generation (5G) mobile communication system is seeing explosive growth in data traffic. In addition, low-frequency spectrum resources are becoming increasingly scarce and there is now an urgent need to switch to higher frequency bands. Millimeter wave (mmWave) technology has several outstanding features—it is one of the most well-known 5G technologies and has the capacity to fulfil many of the requirements of future wireless networks. Importantly, it has an abundant resource spectrum, which can significantly increase the communication rate of a mobile communication system. As such, it is now considered a key technology for future mobile communications. MmWave communication technology also has a more open network architecture; it can deliver varied services and be applied in many scenarios. By contrast, traditional, all-digital precoding systems have the drawbacks of high computational complexity and higher power consumption. This paper examines the implementation of a new hybrid precoding system that significantly reduces both calculational complexity and energy consumption. The primary idea is to generate several sub-channels with equal gain by dividing the channel by the geometric mean decomposition (GMD). In this process, the objective function of the spectral efficiency is derived, then the basic tracking principle and least square (LS) techniques are deployed to design the proposed hybrid precoding. Simulation results show that the proposed algorithm significantly improves system performance and reduces computational complexity by more than 45% compared to traditional algorithms.
AbstractList	With the rapid development of the mobile internet and the internet of things (IoT), the fifth generation (5G) mobile communication system is seeing explosive growth in data traffic. In addition, low-frequency spectrum resources are becoming increasingly scarce and there is now an urgent need to switch to higher frequency bands. Millimeter wave (mmWave) technology has several outstanding features—it is one of the most well-known 5G technologies and has the capacity to fulfil many of the requirements of future wireless networks. Importantly, it has an abundant resource spectrum, which can significantly increase the communication rate of a mobile communication system. As such, it is now considered a key technology for future mobile communications. MmWave communication technology also has a more open network architecture; it can deliver varied services and be applied in many scenarios. By contrast, traditional, all-digital precoding systems have the drawbacks of high computational complexity and higher power consumption. This paper examines the implementation of a new hybrid precoding system that significantly reduces both calculational complexity and energy consumption. The primary idea is to generate several sub-channels with equal gain by dividing the channel by the geometric mean decomposition (GMD). In this process, the objective function of the spectral efficiency is derived, then the basic tracking principle and least square (LS) techniques are deployed to design the proposed hybrid precoding. Simulation results show that the proposed algorithm significantly improves system performance and reduces computational complexity by more than 45% compared to traditional algorithms.
Author	Terng Liew, Jiun Ampoma Affum, Emmanuel Woo Lee, Jeong Khan, Imran Ouahabi, Abdeldjalil Jacques, S閎astien Hashim, Fazirulhisyam Abdulhadi Althuwayb, Ayman
Author_xml	– sequence: 1 givenname: Ayman surname: Abdulhadi Althuwayb fullname: Abdulhadi Althuwayb, Ayman – sequence: 2 givenname: Fazirulhisyam surname: Hashim fullname: Hashim, Fazirulhisyam – sequence: 3 givenname: Jiun surname: Terng Liew fullname: Terng Liew, Jiun – sequence: 4 givenname: Imran surname: Khan fullname: Khan, Imran – sequence: 5 givenname: Jeong surname: Woo Lee fullname: Woo Lee, Jeong – sequence: 6 givenname: Emmanuel surname: Ampoma Affum fullname: Ampoma Affum, Emmanuel – sequence: 7 givenname: Abdeldjalil surname: Ouahabi fullname: Ouahabi, Abdeldjalil – sequence: 8 givenname: S閎astien surname: Jacques fullname: Jacques, S閎astien
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SubjectTerms	5G mobile communication Algorithms Beamforming Communications systems Complexity Computer architecture Computer Science Electronics Energy consumption Engineering Sciences Frequencies Frequency spectrum Hybrid systems Internet of Things Millimeter waves Mobile communication systems Power consumption Wireless networks
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Title	A Highly Efficient Algorithm for Phased-Array mmWave Massive MIMO Beamforming
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