Yang Yang, Zhenqiang Mi, James Yifei Yang, Guangjun Liu
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引用次数: 12
摘要
针对信道随机性问题,提出了一种稀疏自由流车辆自组织网络(VANETs)的连通性改进策略。首先基于等价M/G/∞队列理论,以平均广播渗透距离的形式对vanet的连通性进行建模。在此基础上,针对稀疏型车辆网的连通性差问题,提出了一种基于路旁单元(Road Side Units, rsu)部署的分布式连通性改进策略,旨在将车辆网的连通性提高到理想水平,同时最大限度地降低能耗和信号冲突。通过仿真研究对分析模型进行了验证,并对所提策略的有效性进行了评估,结果表明稀疏vanet的连通性得到了有效和经济的改善。
A Model Based Connectivity Improvement Strategy for Vehicular Ad hoc Networks
This paper presents a connectivity improvement strategy for sparse free-flow Vehicular Ad hoc Networks(VANETs) subject to channel randomness. We first model the connectivity of VANETs in the form of mean broadcast percolation distance based on the equivalent M/G/∞ queue theory. Thereafter, to address the problem of poor connectivity in sparse VANETs, a distributed connectivity improvement strategy based on the deployment of Road Side Units (RSUs) is developed,aiming at improving the connectivity of VANETs to a desired level while minimizing the energy consumption and signal conflict. Simulation studies have been conducted to verify the analytical model and evaluate the efficiency of the proposed strategy, and the results have shown that the connectivity in sparse VANETs has been improved in an efficient and economic way.
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