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Autores principales: Abbasi, Naveed A., Arana, Kelvin, Singh, Siddhant, Bist, Atulya, Vasudevan, Vikram, Pal, Tathagat, Gomez-Ponce, Jorge, Nam, Young-Han, Zhang, Charlie, Molisch, Andreas F.
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2412.20755
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author Abbasi, Naveed A.
Arana, Kelvin
Singh, Siddhant
Bist, Atulya
Vasudevan, Vikram
Pal, Tathagat
Gomez-Ponce, Jorge
Nam, Young-Han
Zhang, Charlie
Molisch, Andreas F.
author_facet Abbasi, Naveed A.
Arana, Kelvin
Singh, Siddhant
Bist, Atulya
Vasudevan, Vikram
Pal, Tathagat
Gomez-Ponce, Jorge
Nam, Young-Han
Zhang, Charlie
Molisch, Andreas F.
contents The upper midband, designated as Frequency Range 3 (FR3), is increasingly critical for the next-generation of wireless networks. Channel propagation measurements and their statistical analysis are essential first steps towards this direction. This paper presents a comprehensive ultra-wideband (UWB) double-directional channel measurement campaign in a large portion of FR3 (6-14 GHz) for urban microcellular environments. We analyze over 25,000 directional power delay profiles and providing key insights into line-of-sight (LoS) and obstructed line-of-sight (OLoS) conditions. This is followed by statistical modeling of path loss, shadowing, delay spread and angular spread. As the first UWB double-directional measurement campaign in this frequency range, this work offers critical insights for spectrum allocation, channel modeling, and the design of advanced communication systems, paving the way for further exploration of FR3.
format Preprint
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institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Ultra-Wideband Double-Directional Channel Measurements and Statistical Modeling in Urban Microcellular Environments for the Upper-Midband/FR3
Abbasi, Naveed A.
Arana, Kelvin
Singh, Siddhant
Bist, Atulya
Vasudevan, Vikram
Pal, Tathagat
Gomez-Ponce, Jorge
Nam, Young-Han
Zhang, Charlie
Molisch, Andreas F.
Systems and Control
The upper midband, designated as Frequency Range 3 (FR3), is increasingly critical for the next-generation of wireless networks. Channel propagation measurements and their statistical analysis are essential first steps towards this direction. This paper presents a comprehensive ultra-wideband (UWB) double-directional channel measurement campaign in a large portion of FR3 (6-14 GHz) for urban microcellular environments. We analyze over 25,000 directional power delay profiles and providing key insights into line-of-sight (LoS) and obstructed line-of-sight (OLoS) conditions. This is followed by statistical modeling of path loss, shadowing, delay spread and angular spread. As the first UWB double-directional measurement campaign in this frequency range, this work offers critical insights for spectrum allocation, channel modeling, and the design of advanced communication systems, paving the way for further exploration of FR3.
title Ultra-Wideband Double-Directional Channel Measurements and Statistical Modeling in Urban Microcellular Environments for the Upper-Midband/FR3
topic Systems and Control
url https://arxiv.org/abs/2412.20755