Traffic Modeling and Performance Evaluation in Vehicle to Infrastructure 802.11p Network

“…The IEEE 802.11p operates on the 5.9GHz bands and channel bandwidth of 10MHz [2]. The IEEE 802.11p adopts physical layer as association interface amid the MAC layer and the wireless links which work using OFDM (Orthogonal frequency division multiplexing) modulation.…”

Selective Mac for Obstacle Aware Cev Environmental Model for Vanet (V2v)

“…The IEEE 802.11p operates on the 5.9GHz bands and channel bandwidth of 10MHz [2]. The IEEE 802.11p adopts physical layer as association interface amid the MAC layer and the wireless links which work using OFDM (Orthogonal frequency division multiplexing) modulation.…”

Selective Mac for Obstacle Aware Cev Environmental Model for Vanet (V2v)

“…They explored the different MAC protocols contention based, contention free and their combination can be termed as Hybrid MAC protocol. Naila Bouchema [4] proposed a scheme for traffic modeling over ITS based VANET. They enhanced the 802.11p by introducing the channel access classes warning to a foggy zone alerts, inter-distance measurement and road warning events etc.…”

“…[1] IEEE 802.11p standard was developed by enhancing the existing IEEE 802.11 to provide the QoS support for the VANET based applications related to Intelligent Transportation Systems (ITS), driver's safety and assistance, speed management and location services etc. It operates the channel of 10MHz bandwidth over 5.9 GHz band [4]. The IEEE 802.11p uses physical layer as communication interface between the MAC layer and the wireless links, which are based on OFDM modulation.…”

On the Selection of Efficient Back-off with QoS Aware Routing in VANET

“…[1] IEEE 802.11p Standard was developed by revising the existing IEEE 802.11a to provide the QoS support for the VANET based applications related to Intelligent Transportation Systems (ITS), driver's safety and assistance, speed management and location services etc. It operates on the channel of 10MHz bandwidth over 5.9 GHz bands [4]. The IEEE 802.11p uses physical layer as communication interface between the MAC layer and the wireless links which are based on OFDM modulation.…”

“…[2] The IEEE 802.11p physical layer utilizes the 64 subcarriers which can be modulated using BPSK and QPSK, 16-QAM or 64-QAM modulation schemes under the constraints of channel quality. [11] VANET applications require accurate and timely delivery of data in order to provide safety and comfort applications. This necessitates QoS provision, high efficiency and throughput requirements.…”

Performance Evaluation of MAC Aware QOS Provisioned Hybrid Routing Over VANET