Propagation path loss modeling and coverage measurements in urban microcell in millimeter wave frequency bands

The global bandwidth deficiency facing wireless carriers has motivated the exploration of the underutilized millimeter wave (mm-wave) frequency spectrum for future broadband cellular communication networks, and mm Wave band is one of the promising candidates due to wide spectrum. This paper presents...

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Main Authors: Majed, Mohammed B., Abd. Rahman, Tharek
Format: Article
Language:English
Published: Asian Research Publishing Network 2018
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Online Access:http://eprints.utm.my/id/eprint/85102/1/TharekAbdRahman2018_PropagationPathLossModelingandCoverageMeasurements.pdf
http://eprints.utm.my/id/eprint/85102/
http://www.arpnjournals.org/jeas/research_papers/rp_2018/jeas_0418_7009.pdf
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spelling my.utm.851022020-02-29T13:43:31Z http://eprints.utm.my/id/eprint/85102/ Propagation path loss modeling and coverage measurements in urban microcell in millimeter wave frequency bands Majed, Mohammed B. Abd. Rahman, Tharek TK Electrical engineering. Electronics Nuclear engineering The global bandwidth deficiency facing wireless carriers has motivated the exploration of the underutilized millimeter wave (mm-wave) frequency spectrum for future broadband cellular communication networks, and mm Wave band is one of the promising candidates due to wide spectrum. This paper presents propagation path loss and outdoor coverage and link budget measurements for frequencies above 6 GHz (mm-wave bands) using directional horn antennas at the transmitter and omnidirectional antennas at the receiver. This work presents measurements showing the propagation time delay spread and path loss as a function of separation distance for different frequencies and antenna pointing angles for many types of real-world environments. The data presented here show that at 28 GHz, 38 GHz and 60 GHz, unobstructed Line of Site (LOS) channels obey free space propagation path loss while non-LOS (NLOS) channels have large multipath delay spreads and can utilize many different pointing angles to provide propagation links. At 60 GHz, there is more path loss and smaller delay spreads. Power delay profiles PDPs were measured at every individual pointing angle for each TX and RX location, and integrating each of the PDPs to obtain received power as a function of pointing angle. The result shows that the mean RMS delay spread varies between 7.2 ns and 74.4 ns for 60 GHz and 28 GHz respectively in NLOS scenario. Asian Research Publishing Network 2018-04 Article PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/85102/1/TharekAbdRahman2018_PropagationPathLossModelingandCoverageMeasurements.pdf Majed, Mohammed B. and Abd. Rahman, Tharek (2018) Propagation path loss modeling and coverage measurements in urban microcell in millimeter wave frequency bands. ARPN Journal of Engineering and Applied Sciences, 13 (8). pp. 2882-2887. ISSN 1819-6608 http://www.arpnjournals.org/jeas/research_papers/rp_2018/jeas_0418_7009.pdf
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
language English
topic TK Electrical engineering. Electronics Nuclear engineering
spellingShingle TK Electrical engineering. Electronics Nuclear engineering
Majed, Mohammed B.
Abd. Rahman, Tharek
Propagation path loss modeling and coverage measurements in urban microcell in millimeter wave frequency bands
description The global bandwidth deficiency facing wireless carriers has motivated the exploration of the underutilized millimeter wave (mm-wave) frequency spectrum for future broadband cellular communication networks, and mm Wave band is one of the promising candidates due to wide spectrum. This paper presents propagation path loss and outdoor coverage and link budget measurements for frequencies above 6 GHz (mm-wave bands) using directional horn antennas at the transmitter and omnidirectional antennas at the receiver. This work presents measurements showing the propagation time delay spread and path loss as a function of separation distance for different frequencies and antenna pointing angles for many types of real-world environments. The data presented here show that at 28 GHz, 38 GHz and 60 GHz, unobstructed Line of Site (LOS) channels obey free space propagation path loss while non-LOS (NLOS) channels have large multipath delay spreads and can utilize many different pointing angles to provide propagation links. At 60 GHz, there is more path loss and smaller delay spreads. Power delay profiles PDPs were measured at every individual pointing angle for each TX and RX location, and integrating each of the PDPs to obtain received power as a function of pointing angle. The result shows that the mean RMS delay spread varies between 7.2 ns and 74.4 ns for 60 GHz and 28 GHz respectively in NLOS scenario.
format Article
author Majed, Mohammed B.
Abd. Rahman, Tharek
author_facet Majed, Mohammed B.
Abd. Rahman, Tharek
author_sort Majed, Mohammed B.
title Propagation path loss modeling and coverage measurements in urban microcell in millimeter wave frequency bands
title_short Propagation path loss modeling and coverage measurements in urban microcell in millimeter wave frequency bands
title_full Propagation path loss modeling and coverage measurements in urban microcell in millimeter wave frequency bands
title_fullStr Propagation path loss modeling and coverage measurements in urban microcell in millimeter wave frequency bands
title_full_unstemmed Propagation path loss modeling and coverage measurements in urban microcell in millimeter wave frequency bands
title_sort propagation path loss modeling and coverage measurements in urban microcell in millimeter wave frequency bands
publisher Asian Research Publishing Network
publishDate 2018
url http://eprints.utm.my/id/eprint/85102/1/TharekAbdRahman2018_PropagationPathLossModelingandCoverageMeasurements.pdf
http://eprints.utm.my/id/eprint/85102/
http://www.arpnjournals.org/jeas/research_papers/rp_2018/jeas_0418_7009.pdf
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score 13.213126