COLAW:基于目击的vanet协同位置证明架构

Philippos Barabas, Emanuel Regnath, S. Steinhorst
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引用次数: 0

摘要

车辆应用严重依赖位置信息来提高道路安全性和效率,并通过各种基于位置的服务提供个性化的驾驶体验。为了确定自己的位置,车辆依赖于GPS等不同的技术,这些技术可能不可靠,或者容易受到干扰或欺骗。在安全关键的车辆世界中,必须有一个安全机制来保证位置信息对需要它的服务的准确性和可信度。在这项工作中,我们提出COLAW,一种基于见证的协作位置证明架构,它利用车辆自组织网络的分布式特性来创建可验证和安全的位置证明。COLAW的评估表明,与之前提出的方法相比,一组相邻车辆可以以更低的消息开销为彼此生成安全位置证明,并且通过考虑某些环境参数和道路条件,可以进一步提高协议的性能。
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COLAW: Cooperative Location Proof Architecture for VANETs based on Witnessing
Vehicular applications heavily rely on location information to improve road safety and efficiency as well as to provide a personalized driving experience through a variety of location-based services. To determine their position, vehicles depend on different technologies like GPS, which might be unreliable or vulnerable to interference or spoofing. In the safety-critical vehicular world, a secure mechanism must be in place which guarantees the accuracy and trustworthiness of location information to the service that requires it. In this work we propose COLAW, a COoperative Location proof Architecture based on Witnessing that leverages the distributed nature of vehicular ad-hoc networks to create verifiable and secure location proofs. The evaluation of COLAW shows that it is possible for a group of neighboring vehicles to generate secure location proofs for each other with a significantly lower message overhead than previously proposed approaches and that the protocol’s performance can be further improved, by taking certain environmental parameters and road conditions into consideration.
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