Interference Reduction by Millimeter Wave Technology for 5G-Based Green Communications

The primary goal of this paper is the optimization of data transmissions and connections between 5G base stations (BSs) as well as the improvement of access technologies and transmission methods in consideration of massive multi-input multi-output, a key technology in 5G networks. In order to reach...

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Main Authors: Tin-Yu Wu, Tse Chang
Format: Article
Language:English
Published: IEEE 2016-01-01
Series:IEEE Access
Subjects:
Online Access:https://ieeexplore.ieee.org/document/7553485/
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author Tin-Yu Wu
Tse Chang
author_facet Tin-Yu Wu
Tse Chang
author_sort Tin-Yu Wu
collection DOAJ
description The primary goal of this paper is the optimization of data transmissions and connections between 5G base stations (BSs) as well as the improvement of access technologies and transmission methods in consideration of massive multi-input multi-output, a key technology in 5G networks. In order to reach an access technology supported by multiple BSs and small cells, we use 5G millimeter wave (mmWave), due to its high directivity and sensitivity to blockage, to enhance the connection system. In the simulation, we will consider extremely high-frequency band and small angle of mmWave, and arrange obstructions in the environment in view of high attenuation characteristics in mmWave signals. After a wave beam penetrates through a wall, the power of the wave sharply decreases. For reduction of energy consumption, the wave therefore will select an mmWave BS with poor signal quality but without blockage to transmit data. Because the number of macro-cells will affect the communication quality and the computational complexity, this paper especially focuses on three factors of a network: delay, capacity, and path loss, and purposes to figure out the most energy-efficient BS densities for 5G-based green communications.
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issn 2169-3536
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publishDate 2016-01-01
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spelling doaj-art-9cb25e5b67154f05a375f9d8d729945c2024-11-28T00:00:54ZengIEEEIEEE Access2169-35362016-01-014102281023410.1109/ACCESS.2016.26023187553485Interference Reduction by Millimeter Wave Technology for 5G-Based Green CommunicationsTin-Yu Wu0https://orcid.org/0000-0002-9804-2377Tse Chang1Department of Computer Science and Information Engineering, National Ilan University, TaiwanDepartment of Computer Science and Information Engineering, National Ilan University, TaiwanThe primary goal of this paper is the optimization of data transmissions and connections between 5G base stations (BSs) as well as the improvement of access technologies and transmission methods in consideration of massive multi-input multi-output, a key technology in 5G networks. In order to reach an access technology supported by multiple BSs and small cells, we use 5G millimeter wave (mmWave), due to its high directivity and sensitivity to blockage, to enhance the connection system. In the simulation, we will consider extremely high-frequency band and small angle of mmWave, and arrange obstructions in the environment in view of high attenuation characteristics in mmWave signals. After a wave beam penetrates through a wall, the power of the wave sharply decreases. For reduction of energy consumption, the wave therefore will select an mmWave BS with poor signal quality but without blockage to transmit data. Because the number of macro-cells will affect the communication quality and the computational complexity, this paper especially focuses on three factors of a network: delay, capacity, and path loss, and purposes to figure out the most energy-efficient BS densities for 5G-based green communications.https://ieeexplore.ieee.org/document/7553485/5Gmillimeter wavedelaycapacitypath loss
spellingShingle Tin-Yu Wu
Tse Chang
Interference Reduction by Millimeter Wave Technology for 5G-Based Green Communications
IEEE Access
5G
millimeter wave
delay
capacity
path loss
title Interference Reduction by Millimeter Wave Technology for 5G-Based Green Communications
title_full Interference Reduction by Millimeter Wave Technology for 5G-Based Green Communications
title_fullStr Interference Reduction by Millimeter Wave Technology for 5G-Based Green Communications
title_full_unstemmed Interference Reduction by Millimeter Wave Technology for 5G-Based Green Communications
title_short Interference Reduction by Millimeter Wave Technology for 5G-Based Green Communications
title_sort interference reduction by millimeter wave technology for 5g based green communications
topic 5G
millimeter wave
delay
capacity
path loss
url https://ieeexplore.ieee.org/document/7553485/
work_keys_str_mv AT tinyuwu interferencereductionbymillimeterwavetechnologyfor5gbasedgreencommunications
AT tsechang interferencereductionbymillimeterwavetechnologyfor5gbasedgreencommunications