Communications in Vehicular Ad Hoc Networks

Abstract

Recent advances in wireless networks have led to the introduction of a new type of networks called Vehicular Networks.Vehicular Ad Hoc Network (VANET) is a form of Mobile Ad Hoc Networks (MANET).VANETs provide us with the infrastructure for developing new systems to enhance drivers' and passengers' safety and comfort.VANETs are distributed self organizing networks formed between moving vehicles equipped with wireless communication devices.This type of networks is developed as part of the Intelligent Transportation Systems (ITS) to bring significant improvement to the transportation systems performance.One of the main goals of the ITS is to improve safety on the roads, and reduce traffic congestion, waiting times, and fuel consumptions.The integration of the embedded computers, sensing devices, navigation systems (GPS), digital maps, and the wireless communication devices along with intelligent algorithms will help to develop numerous types of applications for the ITS to improve safety on the roads.The up to date information provided by the integration of all these systems helps drivers to acquire real-time information about road conditions allowing them to react on time.For example, warning messages sent by vehicles involved in an accident enhances traffic safety by helping the approaching drivers to take proper decisions before entering the crash dangerous zone (ElBatt et al., 2006) (Xu et al., 2007).And Information about the current transportation conditions facilitate driving by taking new routes in case of congestion, thus saving time and adjusting fuel consumption (Dashtinezhad et al., 2004) (Nadeem et al., 2004).In addition to safety concerns, VANET can also support other non-safety applications that require a Quality of Service (QoS) guarantee.This includes Multimedia (e.g., audio/video) and data (e.g., toll collection, internet access, weather/maps/ information) applications.Vehicular networks are composed of mobile nodes, vehicles equipped with On Board Units (OBU), and stationary nodes called Road Side Units (RSU) attached to infrastructure that will be deployed along the roads.Both OBU and RSU devices have wireless/wired communications capabilities.OBUs communicate with each other and with the RSUs in ad hoc manner.There are mainly two types of communications scenarios in vehicular networks: Vehicle-to-Vehicle (V2V) and Vehicle-to-RSU (V2R).The RSUs can also communicate with each other and with other networks like the internet as shown in Figure 1.Vehicular Networks are expected to employ variety of advanced wireless technologies such as Dedicated Short Range Communications (DSRC), which is an enhanced version of the WiFi technology suitable for VANET environments.The DSRC is developed to support the data transfer in rapidly changing communication environments, like VANET, where timecritical responses and high data rates are required.www.intechopen.