Refai, Hazem H2019-04-272019-04-272010https://hdl.handle.net/11244/318893Vehicular ad hoc networks (VANETs) or inter-vehiclecommunication (IVC) makes possible the development of a number ofinnovative and powerful transportation system applications. VANETtechnology proves an important extension of both cellular andwireless local area networks (WLANs) currently used in thetransportation industry. It is widely recognized that thetransportation industry serves as an ideal platform for a largenumber of existing and future wireless applications, many of whichhave yet to be developed for commercial use.Safety messaging is one of the most critical uses for VANET,supporting a number of potential safety applications, e.g. emergencyelectronic brake lights, lane change and pre-crash warning, amongothers. Many applications require extremely low latency (less than100ms) and highly reliable (over 99\% packet delivery ratio)communication services. In order to satisfy these criticalrequirements, an efficient media access control (MAC) layer isnecessary. At the time of this writing, a de facto standard of VANETMAC is being developed.Extensive VANET MAC research with regard to safety applications hasyet to be done. The proposed base for the VANET future standard usesan 802.11a media access layer whose performance-although studied-isknown to contain deficiencies and was accomplished outside theVANET context. These factors motivated the author to initiate thestudy of VANET and MAC.In this work, MAC for VANET MAC is extensively researched, and ahistory of MAC is initially reviewed. The special and criticalrequirements of VANET MAC are presented and four major categorieswere investigated and analyzed. Because the under-development of802.11p is based on the IEEE 802.11a, special consideration is givenwith regard to the performance of 802.11a MAC and associatedrequirements. Extensive research enhancements centering on safetyapplications of the 802.11 MAC are conducted. The author's researchgenerated a platform in which VANET performance can bequantitatively evaluated, analyzed, and verified. The quantitativebehavior of the current protocols/algorithms, which include delayand packet delivery ratio, are presented on this platform.Furthermore, the future protocol and algorithm proposals can beadded into this platform so that a faster research cycle can beachieved. Through theoretical analysis and simulation, thisinvestigation shows that current proposed VANET MAC and 802.11a MACenhancements have yet met the critical requirements of VANET. Thefuture work may focus on how to use this theoretical model andsimulation tool to assist MAC layer protocol design. Meanwhile, whennew algorithms are proposed or accepted by the standard, this modeland tool can serve as a fast and convenient platform, where the newalgorithm can be easily added for the sake of evaluation andverification. The feasibility of relaxing some assumptions includedtherein, such as the hidden node problem in a two dimensional space,may also be studied to make the platform closer to a real system.145 pagesapplication.pdfVehicular ad hoc networks (Computer networks)Wireless LANsComputer network protocolstext