GPS-Based Message Broadcasting for Inter-vehicle Communication
ICPP '00 Proceedings of the Proceedings of the 2000 International Conference on Parallel Processing
Urban multi-hop broadcast protocol for inter-vehicle communication systems
Proceedings of the 1st ACM international workshop on Vehicular ad hoc networks
Emergency Broadcast Protocol for Inter-Vehicle Communications
ICPADS '05 Proceedings of the 11th International Conference on Parallel and Distributed Systems - Workshops - Volume 02
A mobicast routing protocol in vehicular ad-hoc networks
GLOBECOM'09 Proceedings of the 28th IEEE conference on Global telecommunications
DV-CAST: a distributed vehicular broadcast protocol for vehicular ad hoc networks
IEEE Wireless Communications
An adaptive approach for information dissemination in Vehicular Ad hoc Networks
Journal of Network and Computer Applications
Vehicle Ad Hoc networks: applications and related technical issues
IEEE Communications Surveys & Tutorials
An efficient, eco-friendly approach for push-advertising of services in VANETs
UCAmI'12 Proceedings of the 6th international conference on Ubiquitous Computing and Ambient Intelligence
Dual-mode optimum distance routing scheme for vehicular ad hoc networks
Proceedings of the third ACM international symposium on Design and analysis of intelligent vehicular networks and applications
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Vehicular Ad Hoc Networks (VANETs) have emerged as an exciting research and application area. The envisioned applications, as well as some inherent VANET characteristics such as highly dynamic topology, frequently disconnected network, and different and dynamic network density, make data dissemination a challenging task in these networks. Several approaches for data dissemination in VANETs have been recently proposed in the literature. However, more work needs to be done since most of the proposed solutions do not effectively address some or all of the main challenges in these scenarios such as the broadcast storm, network partition and temporal network fragmentation. In this work we consider the broadcast storm problem. To tackle this challenge we propose a novel GEographical Data Dissemination for Alert Information (GEDDAI), which eliminates the broadcast storm and maximizes the capability of performing data dissemination across zones of relevance with low overhead, short delays and high coverage. Simulation results show that the data dissemination performed by GEDDAI provides the best efficiency compared with other algorithms, outperforming them for different scenarios in all performed evaluations.