Communication between vehicles has recently been a popular research topic. Generally, the Vehicle-to-Vehicle (V2V), Vehicle-to-\r\nInfrastructure (V2I), and Infrastructure-to-Infrastructure (I2I) communications applications can be divided into two sections: (i)\r\nsafety applications and (ii) nonsafety applications. In this study, we have investigated the performance of IEEE 802.11p and IEEE\r\n802.11b based on real-world measurements and radio propagation models of V2V networks in different environments, including\r\nhighway, rural, and urban areas. Furthermore, we have investigated the most used V2V mobility models and simulation tools.\r\nComparative performance evaluations show that the IEEE 802.11p achieves higher network throughput, low end-to-end delay, and\r\nhigher delivery ratio compared to IEEE 802.11b.Overall, our main objective is to describe potential advantages, research challenges,\r\nand applications of V2V networks and show how IEEE 802.11p and IEEE 802.11b will perform under different radio propagation\r\nenvironments.
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