research-article

Rain and atmospheric gas effect on millimeter wave propagation for 5G wireless communications

Authors:

Fatima RiouchAuthors Info & Claims

SCA '19: Proceedings of the 4th International Conference on Smart City Applications

Article No.: 92, Pages 1 - 9

https://doi.org/10.1145/3368756.3369079

Published: 02 October 2019 Publication History

Abstract

This paper describes the effect of Atmospheric changes on the received signal level for an Urban Micro cell (Umi) environment, using Uniform Linear Array (ULA). The collective attenuation due to the rain and molecular absorption in dry air (including oxygen), induces a great estimation of the path loss and path loss exponent. However this additive attenuation is not modeled for all the existing 5G channel models as shown in our previous Survey [1], the only channel Models that took this phenomenon into account are the Close-In free Model (CI) and the ITU Radiocommunication (ITU-R) Model. The latter, does not give a collective estimation of the attenuation for all the atmospheric parameters [2][3], like the channel model CI provide. Moreover the CI Model is realized by researchers at New York University (NYU), by combining both computer simulation results and the measurements [4], then this model is established with a good calibtration. For all these reasons we choose to accomplish our study by using the CI model through the NYUSIM software.

References

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Cited By

Yáñez-Casas GCouder-Castañeda CHernández-Gómez JEnciso-Aguilar M(2023)Scattering and Attenuation in 5G Electromagnetic Propagation (5 GHz and 25 GHz) in the Presence of Rainfall: A Numerical StudyMathematics10.3390/math1119407411:19(4074)Online publication date: 26-Sep-2023
https://doi.org/10.3390/math11194074
Ratul RMehedi Zaman SChowdhury HHassan Sagor MKawser MMuntasir Nishat M(2023)Atmospheric Influence on the Path Loss at High Frequencies for Deployment of 5G Cellular Communication Networks2023 14th International Conference on Computing Communication and Networking Technologies (ICCCNT)10.1109/ICCCNT56998.2023.10307972(1-6)Online publication date: 6-Jul-2023
https://doi.org/10.1109/ICCCNT56998.2023.10307972

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Graphical abstract

Display Omitted
Rain attenuation of millimetre wave above 10 GHz for terrestrial links in tropical regions
Abstract
Millimeter waves (mm‐waves) within frequency bands of 10 to 86 GHz will be used for both microwave and access link fifth‐generation (5G) systems. Thus, it is very important to investigate these bands to ensure reliability when 5G is applied in ...

image image Rain attenuation at millimetre wave is critical and resulted high attenuation of specific rain attenuation at 0.01% percentage of time. The resulted attenuation can significantly degrade the communication link during a rainy period. Therefore, ...

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cover image ACM Other conferences

SCA '19: Proceedings of the 4th International Conference on Smart City Applications

October 2019

788 pages

ISBN:9781450362894

DOI:10.1145/3368756

Editors:
Ben Ahmed Mohamed
UAE University-FST of Tangier, Morocco
,
İsmail Rakıp Karașo
Karabuk University, Turkey
,
Rachid Saadane
EHTP, Casablanca, Morocco
,
Wassila Mtalaa
Luxembourg Institute of Science and Technology
,
Boudhir Anouar Abdelhakim
UAE University-FST of Tangier, Morocco

Copyright © 2019 ACM.

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Association for Computing Machinery

New York, NY, United States

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Published: 02 October 2019

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SCA2019: The Fourth International Conference on Smart City Applications

October 2 - 4, 2019

Casablanca, Morocco

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Cited By

Yáñez-Casas GCouder-Castañeda CHernández-Gómez JEnciso-Aguilar M(2023)Scattering and Attenuation in 5G Electromagnetic Propagation (5 GHz and 25 GHz) in the Presence of Rainfall: A Numerical StudyMathematics10.3390/math1119407411:19(4074)Online publication date: 26-Sep-2023
https://doi.org/10.3390/math11194074
Ratul RMehedi Zaman SChowdhury HHassan Sagor MKawser MMuntasir Nishat M(2023)Atmospheric Influence on the Path Loss at High Frequencies for Deployment of 5G Cellular Communication Networks2023 14th International Conference on Computing Communication and Networking Technologies (ICCCNT)10.1109/ICCCNT56998.2023.10307972(1-6)Online publication date: 6-Jul-2023
https://doi.org/10.1109/ICCCNT56998.2023.10307972

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