Poster: Connected Vehicles using Short-range (Wi-Fi & IEEE 802.11p) and Long-range Cellular Networks (LTE & 5G)

Muhammad Naeem Tahir, M. Katz, Zunera Javed
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引用次数: 2

Abstract

In recent years, the vehicular ad hoc networking (VANET) concept has supported the development of emerging safety related applications for vehicles based on cooperative awareness between vehicles. This cooperative awareness can be achieved by exploiting wireless sensors and technologies to transmit periodic messages to neighboring vehicles. These messages normally contain information regarding vehicles, such as position, speed, distance between vehicles, etc. For the transfer of safety messages, Wi-Fi and the suit of IEEE 802.11p/WAVE protocols were commonly used initially but now cellular-based LTE and 5G are the emerging technologies for VANETs. In this paper, a comparison is performed considering the European ITS-G5 standard, Wi-Fi, LTE and 5G by exchanging safety messages in VANETs. We have exchanged real-time road weather and traffic observation data to evaluate the performance of the aforementioned wireless technologies in terms of successful message delivery probability. Our results reveal that due to weak communication links and the lack of line of sight (LOS) communication for Vehicle to Infrastructure (V2I) and Vehicle to Vehicle (V2V) scenarios, Wi-Fi and 802.11p are outperformed by LTE and 5G networks.
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海报:使用短距离(Wi-Fi和IEEE 802.11p)和远程蜂窝网络(LTE和5G)的联网汽车
近年来,车辆自组织网络(VANET)概念支持了基于车辆间协作感知的新兴车辆安全相关应用的发展。这种协同感知可以通过利用无线传感器和技术向相邻车辆发送周期性信息来实现。这些信息通常包含有关车辆的信息,如位置、速度、车辆之间的距离等。对于安全信息的传输,最初通常使用Wi-Fi和IEEE 802.11p/WAVE协议,但现在基于蜂窝的LTE和5G是vanet的新兴技术。本文通过在VANETs中交换安全信息,对欧洲ITS-G5标准、Wi-Fi、LTE和5G进行了比较。我们交换了实时道路天气和交通观测数据,以评估上述无线技术在成功传递信息概率方面的表现。我们的研究结果显示,由于通信链路薄弱和缺乏车辆对基础设施(V2I)和车辆对车辆(V2V)场景的视线(LOS)通信,Wi-Fi和802.11p的性能优于LTE和5G网络。
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