Pervasive and Mobile Computing
Vehicular Networks: From Theory to Practice
Vehicular Networks: From Theory to Practice
Automotive Informatics and Communicative Systems: Principles in Vehicular Networks and Data Exchange
Automotive Informatics and Communicative Systems: Principles in Vehicular Networks and Data Exchange
Vehicular Networks: Techniques, Standards, and Applications
Vehicular Networks: Techniques, Standards, and Applications
Telematics Communication Technologies and Vehicular Networks: Wireless Architectures and Applications
Advances in Vehicular Ad-Hoc Networks: Developments and Challenges
Advances in Vehicular Ad-Hoc Networks: Developments and Challenges
Mobility models for vehicular ad hoc networks: a survey and taxonomy
IEEE Communications Surveys & Tutorials
A survey of inter-vehicle communication protocols and their applications
IEEE Communications Surveys & Tutorials
Vehicle Ad Hoc networks: applications and related technical issues
IEEE Communications Surveys & Tutorials
Inter-vehicle communication systems: a survey
IEEE Communications Surveys & Tutorials
A tutorial survey on vehicular ad hoc networks
IEEE Communications Magazine
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A primary goal of intelligent transportation systems is to improve road safety. The ability of vehicles to communicate is a promising way to alleviate traffic accidents by reducing the response time associated with human reaction to nearby drivers. Vehicle mobility patterns caused by varying traffic dynamics and travel behavior lead to considerable complexity in the efficiency and reliability of vehicular communication networks. This causes two major routing issues: the broadcast storm problem and the network disconnection problem. In this article we review broadcast communication in vehicular communication networks and mechanisms to alleviate the broadcast storm problem. Moreover, we introduce vehicular safety applications, discuss network design considerations, and characterize broadcast protocols in vehicular networks.