Data accuracy in Vehicle-to-X cooperative awareness messages: An experimental study for the first commercial deployment of C-ITS in Europe

IF 5.8 2区 计算机科学 Q1 TELECOMMUNICATIONS
Maximilian Bauder , Andreas Festag , Tibor Kubjatko , Hans-Georg Schweiger
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Abstract

Cooperative Intelligent Transportation Systems have achieved a mature technology stage and are in an early phase of mass deployment in Europe. Relying on Vehicle-to-X communication, these systems were primarily developed to improve traffic safety, efficiency, and driving comfort. However, they also offer great opportunities for other use cases. One of them is forensic accident analysis, where the received data provide details about the status of other traffic participants, give insights into the accident scenario, and therefore help in understanding accident causes. A high accuracy of the sent information is essential: For safety use cases, such as traffic jam warning, a poor accuracy of the data may result in wrong driver information, undermine the usability of the system and even create new safety risks. For accident analysis, a low accuracy may prevent the correct reconstruction of an accident. This paper presents an experimental study of the first generation of Cooperative Intelligent Transportation Systems in Europe. The results indicate a high accuracy for most of the data fields in the Vehicle-to-X messages, namely speed, acceleration, heading and yaw rate information, which meet the accuracy requirements for safety use cases and accident analysis. In contrast, the position data, which are also carried in the messages, have larger errors. Specifically, we observed that the lateral position still has an acceptable accuracy. The error of the longitudinal position is larger and may compromise safety use cases with high accuracy requirements. Even with limited accuracy, the data provide a high value for the accident analysis. Since we also found that the accuracy of the data increases for newer vehicle models, we presume that Vehicle-to-X data have the potential for exact accident reconstruction.

车对车协同感知信息中的数据准确性:欧洲首次商业部署 C-ITS 的实验研究
合作式智能交通系统的技术已经成熟,在欧洲处于大规模部署的早期阶段。这些系统依靠车对车通信技术,主要用于提高交通安全、效率和驾驶舒适度。不过,它们也为其他用例提供了巨大的机会。其中之一是法医事故分析,接收到的数据可提供有关其他交通参与者状态的详细信息,让人们深入了解事故场景,从而有助于了解事故原因。发送信息的高准确性至关重要:对于交通堵塞预警等安全用例而言,数据准确度低可能会导致错误的驾驶员信息,影响系统的可用性,甚至造成新的安全风险。对于事故分析而言,低精度可能会妨碍事故的正确重建。本文介绍了对欧洲第一代合作式智能交通系统的实验研究。研究结果表明,车辆对 X 信息中的大部分数据字段(即速度、加速度、航向和偏航率信息)都具有很高的精度,符合安全用例和事故分析的精度要求。相比之下,同样包含在信息中的位置数据误差较大。具体来说,我们观察到横向位置的准确度仍然可以接受。纵向位置的误差较大,可能会影响对精度要求较高的安全使用案例。即使精度有限,这些数据也能为事故分析提供较高的价值。我们还发现,对于较新的车辆型号,数据的准确性也会提高,因此我们推测 Vehicle-to-X 数据具有准确重建事故的潜力。
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
Vehicular Communications
Vehicular Communications Engineering-Electrical and Electronic Engineering
CiteScore
12.70
自引率
10.40%
发文量
88
审稿时长
62 days
期刊介绍: Vehicular communications is a growing area of communications between vehicles and including roadside communication infrastructure. Advances in wireless communications are making possible sharing of information through real time communications between vehicles and infrastructure. This has led to applications to increase safety of vehicles and communication between passengers and the Internet. Standardization efforts on vehicular communication are also underway to make vehicular transportation safer, greener and easier. The aim of the journal is to publish high quality peer–reviewed papers in the area of vehicular communications. The scope encompasses all types of communications involving vehicles, including vehicle–to–vehicle and vehicle–to–infrastructure. The scope includes (but not limited to) the following topics related to vehicular communications: Vehicle to vehicle and vehicle to infrastructure communications Channel modelling, modulating and coding Congestion Control and scalability issues Protocol design, testing and verification Routing in vehicular networks Security issues and countermeasures Deployment and field testing Reducing energy consumption and enhancing safety of vehicles Wireless in–car networks Data collection and dissemination methods Mobility and handover issues Safety and driver assistance applications UAV Underwater communications Autonomous cooperative driving Social networks Internet of vehicles Standardization of protocols.
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