IEEE 802.11 MAC协议在重传和不重传情况下的DSRC性能分析

2010 IEEE International Symposium on "A World of Wireless, Mobile and Multimedia Networks" (WoWMoM) Pub Date : 2010-06-14 DOI:10.1109/WOWMOM.2010.5534909

M. Hassan, H. Vu, T. Sakurai

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引用次数: 31

摘要

我们为专用短距离通信(DSRC)网络开发了一个精确的分析模型，该网络使用IEEE 802.11分布式协调功能(DCF) MAC协议，该协议将被即将发布的IEEE 802.11p DSRC规范所采用。具体的重点是广播车辆对车辆的安全信息。导出了高速公路上由移动车辆组成的不饱和网络中总数据包延迟均值和数据包投递率(PDR)的显式表达式。我们的模型通过大量的模拟验证，我们表明我们的模型比其他现有模型具有更好的预测精度。然后利用该模型研究了一种改进的DCF的性能，该DCF使用固定数量的顺序重传来提高分组传递的可靠性。我们发现，通过顺序重传，PDR在低车辆密度(即低交通负载)下得到改善，但在重负载下下降，重传引起的更高碰撞超过了重复尝试的好处。

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Performance analysis of the IEEE 802.11 MAC protocol for DSRC with and without Retransmissions

We develop an accurate analytical model for a dedicated short range communication (DSRC) network that uses the IEEE 802.11 distributed coordination function (DCF) MAC protocol, as adopted by the forthcoming IEEE 802.11p specification for DSRC. The specific focus is on broadcast vehicle-to-vehicle safety messages. We derive explicit expressions for the mean of the total packet delay and the packet delivery ratio (PDR) in an unsaturated network formed by moving vehicles on a highway. Our model is validated using extensive simulations and we show that our model yields better predictive accuracy than other existing models. The model is then used to investigate the performance of a modified DCF that uses a fixed number of sequential retransmissions to improve the reliability of packet delivery. We find that with sequential retransmissions, the PDR improves at low vehicle density (i.e. low traffic load), but degrades at heavy loads where higher collisions induced by the retransmissions outweighs the benefit of repeated attempts.

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2010 IEEE International Symposium on "A World of Wireless, Mobile and Multimedia Networks" (WoWMoM)

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