RF Exposure Assessment in ITS-5.9 GHz V2X Connectivity and Vehicle Wireless Technologies: A Numerical and Experimental Approach

Yizhen Yang; Barbara M. Masini; Gunter Vermeeren; Daniel van den Akker; Sam Aerts; Leen Verloock; Emma Chiaramello; Marta Bonato; Joe Wiart; Gabriella Tognola; Wout Joseph

doi:10.1109/ACCESS.2024.3435566

IEEE Access (Jan 2024)

RF Exposure Assessment in ITS-5.9 GHz V2X Connectivity and Vehicle Wireless Technologies: A Numerical and Experimental Approach

Yizhen Yang,
Barbara M. Masini,
Gunter Vermeeren,
Daniel van den Akker,
Sam Aerts,
Leen Verloock,
Emma Chiaramello,
Marta Bonato,
Joe Wiart,
Gabriella Tognola,
Wout Joseph

Affiliations

Yizhen Yang: ORCiD; Department of Information Technology, Ghent University/imec, Ghent, Belgium
Barbara M. Masini: Institute of Electronics, Computer and Telecommunication Engineering (IEIIT), National Research Council (CNR), Milan, Italy
Gunter Vermeeren: ORCiD; Department of Information Technology, Ghent University/imec, Ghent, Belgium
Daniel van den Akker: Department of Computer Science, IDLab, University of Antwerp/imec, Antwerp, Belgium
Sam Aerts: ORCiD; Smart Sensor Systems Research Group, Faculty of Technology, Innovation and Society, The Hague University of Applied Sciences, Delft, AL, The Netherlands
Leen Verloock: ORCiD; Department of Information Technology, Ghent University/imec, Ghent, Belgium
Emma Chiaramello: ORCiD; Institute of Electronics, Computer and Telecommunication Engineering (IEIIT), National Research Council (CNR), Milan, Italy
Marta Bonato: ORCiD; Institute of Electronics, Computer and Telecommunication Engineering (IEIIT), National Research Council (CNR), Milan, Italy
Joe Wiart: ORCiD; Department of Communication and Electronic (COMELEC), Institut Mines-Télécom, Palaiseau, France
Gabriella Tognola: ORCiD; Institute of Electronics, Computer and Telecommunication Engineering (IEIIT), National Research Council (CNR), Milan, Italy
Wout Joseph: ORCiD; Department of Information Technology, Ghent University/imec, Ghent, Belgium

DOI: https://doi.org/10.1109/ACCESS.2024.3435566
Journal volume & issue: Vol. 12
pp. 186002 – 186021

Abstract

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As Vehicle-to-Everything (V2X) communication technologies gain prominence, ensuring human safety from radiofrequency (RF) electromagnetic fields (EMF) becomes paramount. This study critically examines human RF exposure in the context of ITS-5.9 GHz V2X connectivity, employing a combination of numerical dosimetry simulations and targeted experimental measurements. The focus extends across Road-Side Units (RSUs), On-Board Units (OBUs), and, notably, the advanced vehicular technologies within a Tesla Model S, which includes Bluetooth, Long Term Evolution (LTE) modules, and millimeter-wave (mmWave) radar systems. Key findings indicate that RF exposure levels for RSUs and OBUs, as well as from Tesla’s integrated technologies, consistently remain below the International Commission on Non-Ionizing Radiation Protection (ICNIRP) exposure guidelines by a significant margin. Specifically, the maximum exposure level around RSUs was observed to be 10 times lower than ICNIRP reference level, and Tesla’s mmWave radar exposure did not exceed 0.29 W/m2, well below the threshold of 10 W/m2 set for the general public. This comprehensive analysis not only corroborates the effectiveness of numerical dosimetry in accurately predicting RF exposure but also underscores the compliance of current V2X communication technologies with exposure guidelines, thereby facilitating the protective advancement of intelligent transportation systems against potential health risks.

Published in IEEE Access

ISSN: 2169-3536 (Online)
Publisher: IEEE
Country of publisher: United States
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering
Website: https://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=6287639

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