# | Title | Journal | Year | Citations |
---|
1 | 6G Wireless Networks: Vision, Requirements, Architecture, and Key Technologies | IEEE Vehicular Technology Magazine | 2019 | 1,275 |
2 | Single carrier FDMA for uplink wireless transmission | IEEE Vehicular Technology Magazine | 2006 | 963 |
3 | Routing in vehicular ad hoc networks: A survey | IEEE Vehicular Technology Magazine | 2007 | 892 |
4 | The Tactile Internet: Applications and Challenges | IEEE Vehicular Technology Magazine | 2014 | 709 |
5 | LTE-V for Sidelink 5G V2X Vehicular Communications: A New 5G Technology for Short-Range Vehicle-to-Everything Communications | IEEE Vehicular Technology Magazine | 2017 | 568 |
6 | Mobile-Edge Computing for Vehicular Networks: A Promising Network Paradigm with Predictive Off-Loading | IEEE Vehicular Technology Magazine | 2017 | 563 |
7 | 5G Network Capacity: Key Elements and Technologies | IEEE Vehicular Technology Magazine | 2014 | 473 |
8 | Intelligent Transportation Systems | IEEE Vehicular Technology Magazine | 2010 | 463 |
9 | 6G Vision and Requirements: Is There Any Need for Beyond 5G? | IEEE Vehicular Technology Magazine | 2018 | 458 |
10 | 60 GHz wireless communications: Emerging requirements and design recommendations | IEEE Vehicular Technology Magazine | 2007 | 449 |
11 | 6G: The Next Frontier: From Holographic Messaging to Artificial Intelligence Using Subterahertz and Visible Light Communication | IEEE Vehicular Technology Magazine | 2019 | 414 |
12 | Green Small-Cell Networks | IEEE Vehicular Technology Magazine | 2011 | 362 |
13 | 5G on the Horizon: Key Challenges for the Radio-Access Network | IEEE Vehicular Technology Magazine | 2013 | 359 |
14 | Massive MIMO and mmWave for 5G Wireless HetNet: Potential Benefits and Challenges | IEEE Vehicular Technology Magazine | 2016 | 351 |
15 | Taking Drones to the Next Level: Cooperative Distributed Unmanned-Aerial-Vehicular Networks for Small and Mini Drones | IEEE Vehicular Technology Magazine | 2017 | 343 |
16 | Visible Light Communication in 6G: Advances, Challenges, and Prospects | IEEE Vehicular Technology Magazine | 2020 | 295 |
17 | 6G Wireless Channel Measurements and Models: Trends and Challenges | IEEE Vehicular Technology Magazine | 2020 | 265 |
18 | Six time- and frequency- selective empirical channel models for vehicular wireless LANs | IEEE Vehicular Technology Magazine | 2007 | 260 |
19 | Multi-UAV-Aided Networks: Aerial-Ground Cooperative Vehicular Networking Architecture | IEEE Vehicular Technology Magazine | 2015 | 255 |
20 | Comparison of orthogonal and non-orthogonal approaches to future wireless cellular systems | IEEE Vehicular Technology Magazine | 2006 | 253 |
21 | 6G Technologies: Key Drivers, Core Requirements, System Architectures, and Enabling Technologies | IEEE Vehicular Technology Magazine | 2019 | 251 |
22 | Mobile Edge Computing for the Internet of Vehicles: Offloading Framework and Job Scheduling | IEEE Vehicular Technology Magazine | 2019 | 245 |
23 | High-Speed Railway Communications: From GSM-R to LTE-R | IEEE Vehicular Technology Magazine | 2016 | 240 |
24 | Wireless communications for vehicle safety: Radio link performance and wireless connectivity methods | IEEE Vehicular Technology Magazine | 2006 | 239 |
25 | Machine Learning for Vehicular Networks: Recent Advances and Application Examples | IEEE Vehicular Technology Magazine | 2018 | 223 |
26 | 5G Mobile: Spectrum Broadening to Higher-Frequency Bands to Support High Data Rates | IEEE Vehicular Technology Magazine | 2014 | 219 |
27 | Vehicular Communications: Survey and Challenges of Channel and Propagation Models | IEEE Vehicular Technology Magazine | 2015 | 203 |
28 | Connected Roads of the Future: Use Cases, Requirements, and Design Considerations for Vehicle-to-Everything Communications | IEEE Vehicular Technology Magazine | 2018 | 200 |
29 | The Impact of Adverse Weather Conditions on Autonomous Vehicles: How Rain, Snow, Fog, and Hail Affect the Performance of a Self-Driving Car | IEEE Vehicular Technology Magazine | 2019 | 196 |
30 | Motors/generators for traction/propulsion applications: A review | IEEE Vehicular Technology Magazine | 2013 | 190 |
31 | Deep Reinforcement Learning for Mobile 5G and Beyond: Fundamentals, Applications, and Challenges | IEEE Vehicular Technology Magazine | 2019 | 188 |
32 | What is communication-based train control? | IEEE Vehicular Technology Magazine | 2009 | 182 |
33 | Horizon 2020 and Beyond: On the 5G Operating System for a True Digital Society | IEEE Vehicular Technology Magazine | 2015 | 180 |
34 | Energy savings in public transport | IEEE Vehicular Technology Magazine | 2008 | 176 |
35 | Unmanned Aircraft Systems: Air-Ground Channel Characterization for Future Applications | IEEE Vehicular Technology Magazine | 2015 | 176 |
36 | 5G Communications Race: Pursuit of More Capacity Triggers LTE in Unlicensed Band | IEEE Vehicular Technology Magazine | 2015 | 176 |
37 | Propagation Channels of 5G Millimeter-Wave Vehicle-to-Vehicle Communications: Recent Advances and Future Challenges | IEEE Vehicular Technology Magazine | 2020 | 174 |
38 | Cooperative Intelligent Transport Systems in Europe: Current Deployment Status and Outlook | IEEE Vehicular Technology Magazine | 2017 | 170 |
39 | Unveiling Capacity Gains in Ultradense Networks: Using mm-Wave NOMA | IEEE Vehicular Technology Magazine | 2018 | 164 |
40 | Fog Vehicular Computing: Augmentation of Fog Computing Using Vehicular Cloud Computing | IEEE Vehicular Technology Magazine | 2017 | 158 |
41 | Machine Learning for 6G Wireless Networks: Carrying Forward Enhanced Bandwidth, Massive Access, and Ultrareliable/Low-Latency Service | IEEE Vehicular Technology Magazine | 2020 | 156 |
42 | Radio Localization and Mapping With Reconfigurable Intelligent Surfaces: Challenges, Opportunities, and Research Directions | IEEE Vehicular Technology Magazine | 2020 | 153 |
43 | Improved Throughput Coverage in Natural Disasters: Unmanned Aerial Base Stations for Public-Safety Communications | IEEE Vehicular Technology Magazine | 2016 | 151 |
44 | Secure Blockchains for Dynamic Spectrum Access: A Decentralized Database in Moving Cognitive Radio Networks Enhances Security and User Access | IEEE Vehicular Technology Magazine | 2018 | 150 |
45 | Visible Light Communication for Vehicular Networking: Performance Study of a V2V System Using a Measured Headlamp Beam Pattern Model | IEEE Vehicular Technology Magazine | 2015 | 138 |
46 | Outage-Limit-Approaching Channel Coding for Future Wireless Communications: Root-Protograph Low-Density Parity-Check Codes | IEEE Vehicular Technology Magazine | 2019 | 128 |
47 | Deep Learning for Reliable Mobile Edge Analytics in Intelligent Transportation Systems: An Overview | IEEE Vehicular Technology Magazine | 2019 | 126 |
48 | Introducing Connected Vehicles [Connected Vehicles] | IEEE Vehicular Technology Magazine | 2015 | 125 |
49 | Charging Unplugged: Will Distributed Laser Charging for Mobile Wireless Power Transfer Work? | IEEE Vehicular Technology Magazine | 2016 | 124 |
50 | Evolving Wireless Communications: Addressing the Challenges and Expectations of the Future | IEEE Vehicular Technology Magazine | 2013 | 120 |