This book focuses on the most critical technical aspects of vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communications. It covers the smart city concept and architecture and explains how V2V and V2I fit into it. It describes the wireless communication protocols for V2V and V2I. It then explains the hardware design process for vehicle communication transceiver and antenna systems. It explains next-generation wireless technologies and their requirements for vehicle communication protocols. Case studies provide the latest V2V and V2I commercial design details. Finally, it describes how to implement vehicle communication protocol from practical hardware design angle.
| Preface |
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ix | |
| Editor |
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xi | |
| Contributors |
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xiii | |
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1 A Review on V2V Communication for Traffic Jam Management |
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3 | (14) |
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2 Routing Protocols in V2V Communication |
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17 | (26) |
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3 Cooperative Data Scheduling via V2V/V2I Communications in Software-Defined Vehicular Networks |
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43 | (34) |
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SECTION III V2X NETWORK TYPES |
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4 Application and Performance of CEN-DSRC to the Smart Tachograph |
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77 | (16) |
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Sithamparanathan Kandeepan |
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5 Wi-Fi on the Wheels Modeling and Performance Evaluation |
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93 | (32) |
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6 IEEE 802.15.13-Compliant Visible Light Communications in Vehicular Networks |
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125 | (18) |
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SECTION IV V2X APPLICATIONS |
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7 Toward Platoon-Aware Retiming of Traffic Lights in a Smart City |
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143 | (24) |
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8 Messages for Cooperative Adaptive Cruise Control Using V2V Communication in Real Traffic |
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167 | (8) |
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SECTION V ANTENNAS FOR V2X |
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9 MIMO in Vehicular Communication Networks: Channel Modeling, Cooperative Relaying, and Resource Allocation |
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175 | (16) |
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Athanasios D. Panagopoulos |
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10 Antenna Placement and Beam Direction Effects on V2V Communication Channels |
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191 | (16) |
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11 The Fundamental Principles of Antenna Theory for V2I Deployments |
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207 | (14) |
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12 Radio Channel Measurements and Modeling for V2V Communications |
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221 | (20) |
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SECTION VI PHYSICAL LAYER TECHNOLOGIES |
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13 Design Methodologies Comparison of an OFDM System and Implementation Issues Using FPGA Technology for Vehicular Communications |
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241 | (18) |
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14 A Novel Comparative Study of Different Coding Algorithms and Implementation Issues through FPGA Technology for Wireless Vehicular Applications |
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259 | (24) |
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SECTION VII FUTURE DEVELOPMENTS |
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15 Vehicular Network Simulation via ns-3 with Software-Defined Networking Paradigm |
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283 | (12) |
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16 WWW: World Wide Wheels---A Paradigm Shift for Transportation Systems via xG |
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295 | (22) |
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17 Exploiting Infrastructure-Coordinated Multichannel Scheme for Improving Channel Efficiency in V2V Communications |
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317 | (24) |
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| Index |
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341 | |
Dr. Fei Hu is a full professor in the department of electrical and computer engineering at the University of Alabama. He has published 200+ papers on wireless communications, machine learning, and security. Please refer to his website: http://feihu.eng.ua.edu/ for more details on his research outcomes. He has worked with CRC press for over 8 years and has 10+ books published by CRC.
