Human RF Electromagnetic Exposure to V2X-Communication

IF 0.6 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

Advances in Radio Science Pub Date : 2022-09-15 DOI:10.5194/ars-19-233-2022

Lisa-Marie Schilling, C. Bornkessel, M. Hein

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Abstract

Abstract. In the era of automated and connected driving, more and more cars will be equipped with wireless transmission technologies such as mobile communications 4G (LTE) and 5G, WiFi, Bluetooth, and V2X. For the technical implementation of V2X-communications, different standards like cellular-V2X from the cooperation 3rd Generation Partnership Project and ITS-G5, based on the WiFi standard 802.11p from the Institute of Electrical and Electronics Engineers, are under consideration. The electromagnetic environment of cars and the corresponding exposure of the general public to wireless emission will be significantly influenced by new radio technologies. Under all circumstances, it must be ensured that the exposure of the electromagnetic fields inside a car does not cause any harmful effects on humans. In order to quantitatively assess the resulting exposure, the generated exposure must be correctly recorded and evaluated according to their specific time-frequency spectra. This paper describes a new measurement procedure suitable for the V2X-standard ITS-G5 together with various exposure measurements performed in different cars with WiFi, Bluetooth and ITS-G5. In comparison of all wireless standards studied here, the V2X-service generated the highest electric field strengths inside a car, when a transmitting di-patch antenna was mounted on the windscreen inside the driver's cabin. The maximum fraction of the corresponding ICNIRP reference level amounted to 15.1 %. We conclude that the total exposure of wireless on-board automotive devices will be dominated by ITS-G5, if the transmitting antenna is located inside the passenger cabin. As V2X-communications will increasingly penetrate road traffic, the resulting exposure should be carefully monitored, in order not to exceed the corresponding reference levels for general public.

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人体射频电磁暴露于v2x通信

摘要在自动驾驶和互联驾驶的时代，越来越多的汽车将配备无线传输技术，如移动通信4G (LTE)和5G、WiFi、蓝牙和V2X。对于v2x通信的技术实施，正在考虑不同的标准，如来自第三代合作伙伴计划的蜂窝v2x和基于电气和电子工程师协会的WiFi标准802.11p的its - g5。新的无线电技术将显著影响汽车的电磁环境和公众对无线辐射的相应暴露。在任何情况下，必须确保车内电磁场的暴露不会对人体造成任何有害影响。为了定量评估产生的暴露，必须根据其特定的时频谱正确记录和评估产生的暴露。本文介绍了一种适用于v2x标准ITS-G5的新测量程序，以及在不同汽车上使用WiFi、蓝牙和ITS-G5进行的各种曝光测量。与本文研究的所有无线标准相比，当在驾驶室内的挡风玻璃上安装一个发射双贴片天线时，v2x服务在车内产生的电场强度最高。相应的ICNIRPreference水平的最大分数为15.1%。我们得出的结论是，如果发射天线位于客舱内，则无线车载设备的总暴露将由ITS-G5主导。asv2x通信将越来越多地渗透到道路交通中，因此应仔细监测由此产生的暴露，以免超过一般公众的相应参考水平。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advances in Radio Science ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

0.90

自引率

0.00%

发文量

审稿时长

45 weeks