期刊: IEEE VEHICULAR TECHNOLOGY MAGAZINE, 2021; 16 (2)
Joint communication and radar/radio sensing (JCAS), also known as dual-function radar communications, enables the integration of communication and rad......
期刊: IEEE VEHICULAR TECHNOLOGY MAGAZINE, 2021; 16 (2)
Research about online failure prediction of rail vehicle core components (such as wheels, bearings, and bogies) based on big data and artificial intel......
期刊: IEEE VEHICULAR TECHNOLOGY MAGAZINE, 2021; 16 (1)
Satellite interference geolocation plays a critical role in addressing radio interference problems related to satellite communications systems. Tradit......
期刊: IEEE VEHICULAR TECHNOLOGY MAGAZINE, 2021; 16 (1)
Future denser air-ground vehicle networks (AGVNs) face challenges such as resource allocation, mobility management, secure transmission, and so on. At......
期刊: IEEE VEHICULAR TECHNOLOGY MAGAZINE, 2021; 16 (1)
Artificial intelligence (AI) heralds a step-change in wireless networks but may also cause irreversible environmental damage due to its high energy co......
期刊: IEEE VEHICULAR TECHNOLOGY MAGAZINE, 2021; 16 (1)
Caching at the network edge can significantly reduce users' perceived latency and relieve backhaul pressure, hence invigorating a new set of innovatio......
期刊: IEEE VEHICULAR TECHNOLOGY MAGAZINE, 2020; 15 (2)
Future terahertz (THz) communications will utilize the frequency spectrum around 300 GHz. This technology provides a promising solution for future hig......
期刊: IEEE VEHICULAR TECHNOLOGY MAGAZINE, 2020; 15 (2)
Channel modeling plays an important role in unmanned aerial vehicle (UAV) communication system design and performance evaluation. In this article, we ......
期刊: IEEE VEHICULAR TECHNOLOGY MAGAZINE, 2020; 15 (2)
5G cellular networks are characterized by a servicebased architecture (SBA) where physical and virtual network functions (NFs) interact with each othe......
期刊: IEEE VEHICULAR TECHNOLOGY MAGAZINE, 2020; 15 (2)
In this article, we propose to apply massive multipleinput, multiple-output (MIMO) to mobile edge computing (MEC). This application is expected to gre......
期刊: IEEE VEHICULAR TECHNOLOGY MAGAZINE, 2020; 15 (4)
To satisfy the expected plethora of demanding services, the future generation of wireless networks (6G) has been mandated as a revolutionary paradigm ......
期刊: IEEE VEHICULAR TECHNOLOGY MAGAZINE, 2020; 15 (4)
6G networks are expected to provide extremely high capacity and satisfy emerging applications, but current frequency bands may not be sufficient. More......
期刊: IEEE VEHICULAR TECHNOLOGY MAGAZINE, 2020; 15 (4)
Recent advances in programmable metasurfaces, known as software-defined metasurfaces (SDMs), offer a paradigm shift from uncontrollable to fully tunab......
期刊: IEEE VEHICULAR TECHNOLOGY MAGAZINE, 2020; 15 (4)
Employing massively distributed antennas brings radio access points (RAPs) closer to users, enabling aggressive spectrum reuse that can bridge gaps be......
