重新思考未来V2X安全关键应用的协作意识

2017 IEEE Vehicular Networking Conference (VNC) Pub Date : 2017-11-01 DOI:10.1109/VNC.2017.8275645

I. Khan, Gia-Minh Hoang, Jérôme Härri

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引用次数: 8

摘要

在本文中，我们重新定义了协作感知，包括GPS和通信引起的位置误差。我们通过基于融合的协同定位(CLoc)来减少GPS误差，并交换这些信息而不是GPS坐标。我们通过一种新的感知控制策略来减轻通信引起的错误，该策略旨在使用非常轻量级的感知消息打破10Hz屏障。我们评估了我们的策略的可扩展性限制，并通过仿真结果表明，在低于60%的信道负载下，我们可以达到15ms到50m的数据包接收时间(IRT)，从而导致位置感知误差低于0.8m。与目前的标准相比，这是4倍的改进，并有助于实现未来ITS-G5自动驾驶汽车所需的反应性和精度。

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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Rethinking cooperative awareness for future V2X safety-critical applications

In this paper, we redefine cooperative awareness to include both GPS and communication-induced position errors. We reduce the GPS error through fusion-based Cooperative Localization (CLoc), and exchange such information instead of GPS coordinates. We mitigate the communication-induced errors by a novel awareness control strategy aiming at breaking the 10Hz barrier using a very lightweight awareness message. We evaluate the scalability limit of our strategy and show via simulation results that we can reach a packet Inter-Reception Time (IRT) of 15ms up to 50m at a channel load below 60%, leading to a position awareness error below 0.8m. This is a 4x improvement compared to current standards, and is an enabler to the reactivity and precision required by future ITS-G5 autonomous vehicles.

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2017 IEEE Vehicular Networking Conference (VNC)

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