Wave Performance Analysis and Enhancement for Safety Applications in Vehicular Networks

2019 10th IFIP International Conference on New Technologies, Mobility and Security (NTMS) Pub Date : 2019-06-24 DOI:10.1109/NTMS.2019.8763783

Fadlallah Chbib, L. Khoukhi, W. Fahs, R. Khatoun, Jamal Haydar

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引用次数: 6

Abstract

Vehicular ad hoc networks (VANETs) have become an active area of research, standardization, and development. The communication between vehicles will lead to more efficient and secured roads by providing information about traffic and road conditions to vehicle drivers. In this paper, we propose Markovian chain models to ensure the delivery of urgent safety message to the receiver, regardless of the buffer status by controlling the rate of the beacon messages in the control channel (CCH) according to 802.11 EDCA back off analysis. In the first Markov method, we control the rate of beacon message according to the buffer state to minimize the drop and delay of urgent message. In the second model, we compute the transmission probability of Access Category (AC) by modifying the contention window size with respect to buffer threshold. The third Markov method describes the probability of collision of AC. The simulations results prove that our proposed model performs better compared to the original IEEE 802.11p in terms of packet delivery ratio and throughput.

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车辆网络中安全应用的波性能分析与增强

车辆自组织网络(vanet)已经成为一个活跃的研究、标准化和开发领域。车辆之间的通信将通过向车辆驾驶员提供有关交通和道路状况的信息，从而提高道路的效率和安全性。本文根据802.11 EDCA后退分析，提出了马尔可夫链模型，通过控制控制信道(CCH)中信标报文的速率，保证在不考虑缓冲区状态的情况下向接收方发送紧急安全报文。在第一种马尔可夫方法中，我们根据缓冲状态控制信标报文的速率，以最小化紧急报文的丢失和延迟。在第二个模型中，我们通过修改相对于缓冲区阈值的争用窗口大小来计算访问类别(AC)的传输概率。第三种马尔可夫方法描述了交流的碰撞概率。仿真结果表明，我们提出的模型在分组传输率和吞吐量方面都优于原始的IEEE 802.11p。

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

2019 10th IFIP International Conference on New Technologies, Mobility and Security (NTMS)

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