Vehicular Networks: Models and Algorithms / Edition 1 available in Hardcover, eBook
Vehicular Networks: Models and Algorithms / Edition 1
- ISBN-10:
- 1848214898
- ISBN-13:
- 9781848214897
- Pub. Date:
- 06/24/2013
- Publisher:
- Wiley
Vehicular Networks: Models and Algorithms / Edition 1
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Contents
1. Introduction 2. Congestion Control for Safety Vehicular Ad-Hoc Networks 3. Inter-Vehicle Communication for the Next Generation of Intelligent Transport System: Trends in Geographic Ad Hoc Routing Techniques 4. CONVOY: A New Cluster-Based Routing Protocol for Vehicular Networks 5. Complementarity between Vehicular Networks and LTE Networks 6. Gateway Selection Algorithms in a Hybrid VANET-LTE Advanced Network 7. Synthetic Mobility Traces for Vehicular Networking 8. Traffic Signal Control Systems and Car-to-Car Communications
About the Authors
André-Luc Beylot is Professor in the Telecommunication and Network Department of the ENSEEIHT of IRIT-T, University of Toulouse in France. Houda Labiod is Associate Professor at Telecom ParisTech in the INFRES (Computer Science and Network) Department, France.
Product Details
ISBN-13: | 9781848214897 |
---|---|
Publisher: | Wiley |
Publication date: | 06/24/2013 |
Series: | ISTE Series |
Pages: | 304 |
Product dimensions: | 6.30(w) x 9.30(h) x 0.90(d) |
About the Author
Houda Labiod is Associate Professor at Telecom ParisTech in the INFRES (Computer Science and Network) Department, France.
Table of Contents
Introduction xiHouda LABIOD and André-Luc BEYLOTChapter 1. Congestion Control for Safety Vehicular Ad Hoc Networks 1Razvan STANICA, Emmanuel CHAPUT and André-Luc BEYLOT
1.1. Introduction 1
1.2. Beaconing frequency 5
1.3. Data rate 7
1.4. Transmission power 10
1.5. Minimum contention window 12
1.6. Physical carrier sense 25
1.7. Conclusion 31
1.8. Bibliography 32
Chapter 2. Inter-Vehicle Communication for the Next Generation of Intelligent Transport Systems: Trends in Geographic Ad Hoc Routing Techniques 39Xunxing DIAO, Kun-Mean MOU, Jian-Jin LI and Haiying ZHOU
2.1. Introduction 39
2.2. IVC-relating ITS projects 42
2.3. Wireless sublayer techniques 45
2.3.1. WLAN and WPAN (up to 300 m) 45
2.3.2. Dedicated short-range communication (up to 1 km) 47
2.3.3. Cellular networks (more than 1 km) 49
2.3.4. Comparison 50
2.4. Geographic routing techniques for VANET 52
2.4.1. Features of VANET 52
2.4.2. Localization 54
2.4.3. Unicast greedy routing 62
2.4.4. Geocast (multicast) routing 72
2.4.5. Delay tolerant network-based routing 75
2.4.6. Map-based routing 79
2.5. Conclusion and open issues 79
2.6. Acknowledgments 81
2.7. Bibliography 81
Chapter 3. CONVOY: A New Cluster-Based Routing Protocol for Vehicular Networks 91Véronique VÈQUE, Florent KAISSER, Colette JOHNEN and Anthony BUSSON
3.1. Introduction 91
3.2. Clustering or network partitioning 94
3.2.1. General remarks on the partitioning of mobile ad hoc networks 94
3.2.2. Controlling the number of hops 96
3.2.3. Controlling the number of nodes 97
3.2.4. Role of the clusterhead 98
3.3. Mobility-based clustering in ad hoc vehicular networks 98
3.3.1. The dynamics of vehicular traffic in VANETs 99
3.3.2. Clustering according to the lane 101
3.3.3. Clustering depending on the relative speed between the vehicles 101
3.3.4. Clustering depending on the direction of the movement (movement-based) 101
3.3.5. Clustering depending on the radio link quality 102
3.3.6. Clustering depending on speed and relative speed 103
3.3.7. Clustering depending on the position, speed and direction 104
3.4. Clustering of VANETs for MAC and transport applications 105
3.4.1. Cluster-based MAC protocol 105
3.4.2. Clustering for transport applications 106
3.5. CONVOY: a vehicle convoy formation protocol 108
3.5.1. Intra-convoy communication protocol 110
3.5.2. Convoy formation algorithm 110
3.6. Assessment of the convoy formation protocol 117
3.6.1. Optimal parameters of the algorithm 119
3.6.2. Distribution of the length of convoys 120
3.6.3. Convoy stability 121
3.7. Conclusion 123
3.8. Bibliography 124
Chapter 4. Complementarity between Vehicular Networks and LTE Networks 131Guillaume RÉMY, Sidi-Mohammed SENOUCI, François JAN and Yvon GOURHANT
4.1. Introduction 131
4.2. State of the art 135
4.3. General description of the proposed architecture 139
4.3.1. Network organization mechanisms for areas completely covered by LTE 139
4.3.2. Network organization mechanisms for areas that are not completely covered by LTE 140
4.3.3. Information collection application: LTE4V2X-C 141
4.3.4. Information dissemination application: LTE4V2X-D 141
4.4. Detailed description of the LTE4V2X-C protocol 141
4.4.1. Initialization phase 143
4.4.2. Maintenance 145
4.4.3. Extension for the areas not covered by the LTE 149
4.5. A detailed description of the LTE4V2X-D protocol 151
4.6. Performance evaluation 153
4.6.1. Hypotheses 153
4.6.2. The results of the simulation and their analysis 156
4.6.3. Analysis of the impact of the handover 164
4.7. Conclusion 168
4.8. Bibliography 169
Chapter 5. Gateway Selection Algorithms in Vehicular Networks 171Ghayet e mouna ZHIOUA, Houda LABIOD, Nabil TABBANE and Sami TABBANE
5.1. Introduction 171
5.2. Clustering and gateway selection in VANET networks 173
5.2.1. Clustering in VANET networks 173
5.2.2. Gateway selection in a clustered/non-clustered VANET architecture 177
5.2.3. Conclusions 181
5.3. Gateway selection in a clustered VANET-LTE advanced hybrid network 182
5.3.1. Problem statement 182
5.3.2. LTE-advanced standard 183
5.3.3. Proposed algorithm 187
5.3.4. Conclusions 204
5.4. Conclusion 205
5.5. Bibliography 206
Chapter 6. Synthetic Mobility Traces for Vehicular Networking 209Sandesh UPPOOR, Marco FIORE and Jérôme HÄRRI
6.1. Introduction 209
6.2. Generation process 212
6.2.1. Road topology database 212
6.2.2. Microscopic traffic flow description 215
6.2.3. Macroscopic road traffic description 218
6.3. Mobility simulators 220
6.3.1. Microscopic traffic simulators 220
6.3.2. Mesoscopic traffic simulators 221
6.3.3. Macroscopic traffic simulators 222
6.3.4. Interactions between simulators 223
6.4. Mobility traces 226
6.4.1. Perception 227
6.4.2. Small-scale measurements 230
6.4.3. Road traffic imagery 231
6.4.4. Roadside detectors 232
6.4.5. Sociodemographic surveys 233
6.4.6. Discussion 237
6.5. Bibliography 240
Chapter 7. Traffic Signal Control Systems and Car-to-Car Communications 247Mounir BOUSSEDJRA, Nitin MASLEKAR, Joseph MOUZNA and Houda LABIOD
7.1. Introduction 247
7.2. Classification of traffic signal control systems 249
7.2.1. Static systems 250
7.2.2. Dynamic systems 251
7.3. Traffic signal control and car-to-car communication 269
7.4. Summary and conclusion 269
7.5. Bibliography 273
List of Authors 279
Index 281