Quasi Optical Multi-Ray Model For Wireless Communication Link in Millimeter Wavelengths

Quasi Optical Multi-Ray Model For Wireless Communication Link in Millimeter Wavelengths

The spectrum of millimeter waves lay above 30GHz. The band between 30GHz up to 300GHz is called Extremely High Frequencies (EHF). This wide spectrum is relatively free of users and have recently became relevant for realizations of wireless communications an radars, including the fifth generation (5G...

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Main Authors: Rapaport Liat, Etinger Ariel, Litvak Boris, Pinhasi Gad, Pinhasi Yosef
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201821003006
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spelling doaj-1e56beda841e4a5a918d633a67e085b22021-02-02T08:32:19ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-012100300610.1051/matecconf/201821003006matecconf_cscc2018_03006Quasi Optical Multi-Ray Model For Wireless Communication Link in Millimeter WavelengthsRapaport LiatEtinger ArielLitvak BorisPinhasi GadPinhasi YosefThe spectrum of millimeter waves lay above 30GHz. The band between 30GHz up to 300GHz is called Extremely High Frequencies (EHF). This wide spectrum is relatively free of users and have recently became relevant for realizations of wireless communications an radars, including the fifth generation (5G) of cellular communications. Due to the short wavelengths, the propagation of millimeter waves can be analyzed using quasi-optical ray techniques. We present a multi-ray analysis of millimeter wave wireless link in the presence of multipath. The analysis is applicable for indoor and outdoor links and considers reflections from walls and buildings. It is shown that line-of-sight is not necessarily required in scenarios where multiple reflections exist as in long corridors, canyons and tunnels. The theoretical results are verified experimentally with a link in the W-band (94GHz).https://doi.org/10.1051/matecconf/201821003006
collection DOAJ
language English
format Article
sources DOAJ
author Rapaport Liat
Etinger Ariel
Litvak Boris
Pinhasi Gad
Pinhasi Yosef
spellingShingle Rapaport Liat
Etinger Ariel
Litvak Boris
Pinhasi Gad
Pinhasi Yosef
Quasi Optical Multi-Ray Model For Wireless Communication Link in Millimeter Wavelengths
MATEC Web of Conferences
author_facet Rapaport Liat
Etinger Ariel
Litvak Boris
Pinhasi Gad
Pinhasi Yosef
author_sort Rapaport Liat
title Quasi Optical Multi-Ray Model For Wireless Communication Link in Millimeter Wavelengths
title_short Quasi Optical Multi-Ray Model For Wireless Communication Link in Millimeter Wavelengths
title_full Quasi Optical Multi-Ray Model For Wireless Communication Link in Millimeter Wavelengths
title_fullStr Quasi Optical Multi-Ray Model For Wireless Communication Link in Millimeter Wavelengths
title_full_unstemmed Quasi Optical Multi-Ray Model For Wireless Communication Link in Millimeter Wavelengths
title_sort quasi optical multi-ray model for wireless communication link in millimeter wavelengths
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description The spectrum of millimeter waves lay above 30GHz. The band between 30GHz up to 300GHz is called Extremely High Frequencies (EHF). This wide spectrum is relatively free of users and have recently became relevant for realizations of wireless communications an radars, including the fifth generation (5G) of cellular communications. Due to the short wavelengths, the propagation of millimeter waves can be analyzed using quasi-optical ray techniques. We present a multi-ray analysis of millimeter wave wireless link in the presence of multipath. The analysis is applicable for indoor and outdoor links and considers reflections from walls and buildings. It is shown that line-of-sight is not necessarily required in scenarios where multiple reflections exist as in long corridors, canyons and tunnels. The theoretical results are verified experimentally with a link in the W-band (94GHz).
url https://doi.org/10.1051/matecconf/201821003006
work_keys_str_mv AT rapaportliat quasiopticalmultiraymodelforwirelesscommunicationlinkinmillimeterwavelengths
AT etingerariel quasiopticalmultiraymodelforwirelesscommunicationlinkinmillimeterwavelengths
AT litvakboris quasiopticalmultiraymodelforwirelesscommunicationlinkinmillimeterwavelengths
AT pinhasigad quasiopticalmultiraymodelforwirelesscommunicationlinkinmillimeterwavelengths
AT pinhasiyosef quasiopticalmultiraymodelforwirelesscommunicationlinkinmillimeterwavelengths
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