Vehicular networks : models and algorithms

Vehicular networks : models and algorithms / edited by André-Luc Beylot, Houda Labiod.

Over the last few years vehicular networks have been receiving a lot of attention from academia, industry, standardization bodies, and the various transportation agencies and departments of many governments around the world. It is envisaged in the next decade that the Intelligent Transportation Syst...

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Bibliographic Details
Other Authors: Beylot, Andre-Luc, Labiod, Houda
Format: eBook
Language:English
Published: London : Hoboken, NJ : ISTE ; Wiley, 2013.
Series:Networks and telecommunications series.
Subjects:
Intelligent transportation systems.
Intelligent transportation systems > Mathematical models.
TECHNOLOGY & ENGINEERING > Civil > Highway & Traffic.
Intelligent transportation systems
Intelligent transportation systems > Mathematical models
Online Access:Click for online access
Table of Contents:
  • Cover; Title Page; Contents; Introduction; Chapter 1. Congestion Control for Safety VehicularAd Hoc Networks; 1.1. Introduction; 1.2. Beaconing frequency; 1.3. Data rate; 1.4. Transmission power; 1.5. Minimum contention window; 1.6. Physical carrier sense; 1.7. Conclusion; 1.8. Bibliography; Chapter 2. Inter-Vehicle Communication forthe Next Generation of Intelligent TransportSystems: Trends in Geographic Ad HocRouting Techniques; 2.1. Introduction; 2.2. IVC-relating ITS projects; 2.3. Wireless sublayer techniques; 2.3.1. WLAN and WPAN (up to 300 m).
  • 2.3.2. Dedicated short-range communication (up to 1 km)2.3.3. Cellular networks (more than 1 km); 2.3.4. Comparison; 2.4. Geographic routing techniques for VANET; 2.4.1. Features of VANET; 2.4.2. Localization; 2.4.3. Unicast greedy routing; 2.4.4. Geocast (multicast) routing; 2.4.5. Delay tolerant network-based routing; 2.4.6. Map-based routing; 2.5. Conclusion and open issues; 2.6. Acknowledgments; 2.7. Bibliography; Chapter 3. CONVOY: A New Cluster-BasedRouting Protocol for Vehicular Networks; 3.1. Introduction; 3.2. Clustering or network partitioning.
  • 3.2.1. General remarks on the partitioning ofmobile ad hoc networks3.2.2. Controlling the number of hops; 3.2.3. Controlling the number of nodes; 3.2.4. Role of the clusterhead; 3.3. Mobility-based clustering in ad hoc vehicular networks; 3.3.1. The dynamics of vehiculartraffic in VANETs; 3.3.2. Clustering according to the lane; 3.3.3. Clustering depending on the relativespeed between the vehicles; 3.3.4. Clustering depending on the directionof the movement (movement-based); 3.3.5. Clustering depending on the radiolink quality; 3.3.6. Clustering depending on speed andrelative speed.
  • 3.3.7. Clustering depending on the position, speed and direction3.4. Clustering of VANETs for MAC and transport applications; 3.4.1. Cluster-based MAC protocol; 3.4.2. Clustering for transport applications; 3.5. CONVOY: a vehicle convoy formation protocol; 3.5.1. Intra-convoy communication protocol; 3.5.2. Convoy formation algorithm; 3.6. Assessment of the convoy formation protocol; 3.6.1. Optimal parameters of the algorithm; 3.6.2. Distribution of the length of convoys; 3.6.3. Convoy stability; 3.7. Conclusion; 3.8. Bibliography.
  • Chapter 4. Complementarity betweenVehicular Networks and LTE Networks4.1. Introduction; 4.2. State of the art; 4.3. General description of the proposed architecture; 4.3.1. Network organization mechanismsfor areas completely covered by LTE; 4.3.2. Network organization mechanisms forareas that are not completely covered by LTE; 4.3.3. Information collection application:LTE4V2X-C; 4.3.4. Information dissemination application:LTE4V2X-D; 4.4. Detailed description of the LTE4V2X-C protocol; 4.4.1. Initialization phase; 4.4.2. Maintenance; 4.4.3. Extension for the areas not coveredby the LTE.

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