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Main Authors: Kryszkiewicz, Pawel, Kliks, Adrian, Sroka, Pawel, Sybis, Michal
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.17618
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author Kryszkiewicz, Pawel
Kliks, Adrian
Sroka, Pawel
Sybis, Michal
author_facet Kryszkiewicz, Pawel
Kliks, Adrian
Sroka, Pawel
Sybis, Michal
contents In this letter, we investigate single-slope path loss models complemented with shadowing effects in the context of vehicular communications. We present several models obtained based on extensive measurement campaigns with inter-vehicle transmission conducted at 26.555 GHz in real-traffic experiments, mainly along high-speed roads. Particular attention has been put on the impact of aerial characteristics (omnidirectional versus directional), surrounding environment (e.g., urban versus rural), and their mounting point on cars (at the rooftop, on the bumper, and below the car chassis). Finally, the effect of signal ducting and of the number of blocking cars has been analyzed and the decorrelation time has been discussed
format Preprint
id arxiv_https___arxiv_org_abs_2410_17618
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle V2V Path Loss Modeling at 26 GHz Based on Real-Traffic Measurements
Kryszkiewicz, Pawel
Kliks, Adrian
Sroka, Pawel
Sybis, Michal
Networking and Internet Architecture
In this letter, we investigate single-slope path loss models complemented with shadowing effects in the context of vehicular communications. We present several models obtained based on extensive measurement campaigns with inter-vehicle transmission conducted at 26.555 GHz in real-traffic experiments, mainly along high-speed roads. Particular attention has been put on the impact of aerial characteristics (omnidirectional versus directional), surrounding environment (e.g., urban versus rural), and their mounting point on cars (at the rooftop, on the bumper, and below the car chassis). Finally, the effect of signal ducting and of the number of blocking cars has been analyzed and the decorrelation time has been discussed
title V2V Path Loss Modeling at 26 GHz Based on Real-Traffic Measurements
topic Networking and Internet Architecture
url https://arxiv.org/abs/2410.17618