Networking simulation for intelligent transportation systems

Networking simulation for intelligent transportation systems

Detalles Bibliográficos
Otros Autores: Hilt, Benoit, editor (editor)
Formato: Libro electrónico
Idioma:Inglés
Publicado: Hoboken, New Jersey : ISTE Ltd/John Wiley and Sons Inc 2017.
Colección:Networks and telecommunications series.
Materias:
Intelligent transportation systems > Computer simulation.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009849075306719
Tabla de Contenidos:
  • -- Preface xi
  • Chapter 1. Simulation of Convergent Networks for Intelligent Transport Systems with VSimRTI 1 /Robert PROTZMANN, BjŠorn SCHÜNEMANN and Ilja RADUSCH
  • 1.1. Introduction 1
  • 1.2. Fundamentals of cooperative ITS 2
  • 1.3. Overall simulation framework 5
  • 1.4. Simulation of cellular networks 6
  • 1.5. Simulation study 14
  • Chapter 2. Near-field Wireless Communications and their Role in Next Generation Transport Infrastructures: an Overview of Modelling Techniques 29 /Christian PINEDO, Marina AGUADO, Lara RODRIGUEZ, Iñigo ADIN, Jaizki MENDIZABAL and Guillermo BISTUÉ
  • 2.1. Near-field wireless technologies 30
  • 2.2. Characterization of near-field communications 36
  • 2.3. Discrete event simulators 42
  • 2.4. Conclusions 47
  • Chapter 3. Trace Extraction for Mobility in Civil Aeronautical Communication Networks Simulation 50 /Fabien GARCIA and Mickaël ROYER
  • 3.1. Traffic regulations 52
  • 3.2. Mobility for network simulation 54
  • 3.3. Example of mobility trace extraction 56
  • 3.4. Toward cooperative trajectories 60
  • 3.5. Bibliography 60
  • Chapter 4. Air-Ground Data Link Communications in Air Transport 61 /Christophe GUERBER, Alain PIROVANO and José RADZIK
  • 4.1. Introduction 61
  • 4.2. Continental air-ground data link communications and VDL mode 2 63
  • 4.3. Oceanic air-ground data link communications and AMS(R)S 71
  • 4.4. Summary and further work 76
  • 4.5. Bibliography 77
  • Chapter 5. A Virtual Laboratory as an Assessment Tool for Wireless Technologies in Railway Systems 79 /Patrick SONDI, Eric RAMAT and Marion BERBINEAU
  • 5.1. Introduction 80
  • 5.2. ERTMS subsystems and related test beds 81
  • 5.3. A virtual laboratory based on co-simulation for ERTMS evaluation 86
  • 5.4. Effective use of the ERTMS / OPNET virtual laboratory 97
  • Chapter 6. Emulating a Realistic VANET Channel in Ns-3 107 /Hervé BOEGLEN, Benoit HILT and Frédéric DROUHIN
  • 6.1. Introduction 107
  • 6.2. Influence of the channel propagation model on VANET simulation 107.
  • 6.3. A way to realistic channel modeling with ns-2 112
  • 6.4. Realistic channel modeling with ns-3 114
  • 6.5. Case studies: emulation of realistic VANET channel models in ns-3 117
  • 6.6. Conclusion and discussion 123
  • 6.7. Appendix A: The Abbas et al. Model Implementation 125
  • Chapter 7. CONVAS: Connected Vehicle Assessment System for Realistic Co-simulation of Traffic and Communications 133 /Justinian ROSCA, Ines UGALDE, Praprut SONGCHITRUKSA and Srinivasa SUNKARI
  • 7.1. Introduction 133
  • 7.2. Related work 135
  • 7.3. CONVAS co-simulation platform 138
  • 7.4. Realistic DSRC channel models 139
  • 7.5. Channel model tuning 143
  • 7.6. Connected vehicle applications 149
  • 7.7. Experimental results 151
  • Chapter 8. Highway Road Traffic Modeling for ITS Simulation 165 /Marco GRAMAGLIA, Marco FIORE, Maria CALDERON, Oscar TRULLOLS-CRUCES and Diala NABOULSI
  • 8.1. Introduction 165
  • 8.2. Road traffic models 166
  • 8.3. Fine-tuned measurement-based model 170
  • 8.4. Comparative analysis of road traffic models 174
  • 8.5. Fundamental properties of highway vehicular networks . . . 178
  • 8.6. Discussion and conclusions 181
  • 8.7. Bibliography 182
  • Chapter 9. F-ETX: A Metric Designed for Vehicular Networks 185 /Sébastien BINDEL, Benoit HILT and Serge CHAUMETTE
  • 9.1. Introduction 185
  • 9.2. Link quality estimators 187
  • 9.3. Analysis of legacy estimation techniques 190
  • 9.4. The F-ETX metric 195
  • 9.5. Simulation settings 201
  • 9.6. Simulation results 202
  • Chapter 10. Autonomic Computing and VANETs: Simulation of a QoS-based Communication Model 211 Nader MBAREK, Wahabou ABDOU and Benoît DARTIES
  • 10.1. Introduction 211
  • 10.2. Autonomic Computing within VANETs 212
  • 10.3. Broadcasting protocols for VANETs 213
  • 10.4. Autonomic broadcasting within VANETs 218
  • 10.5. Simulation of a QoS-based communication model 222
  • 10.6. Conclusion 231
  • 10.7. Bibliography 232
  • List of Authors 235
  • Index 239.

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