Connected vehicles are becoming a cornerstone of the increasingly connected world and the deployment phase of the first generation of vehicular networks is now closer than ever. Manufacturers plan to introduce new cars into the market with V2V and V2I communication systems as soon as 2019 (estimated). Large-scale testbeds are running or planned in different parts of the world, such as the Cooperative ITS Corridor that connects Austria, Germany and Netherlands, and the USDOT plan to install V2V technology in 10,000 city-owned vehicles in New York City. On the other hand, the technology will continue to evolve. In parallel to the deployment phase, multiple discussions are taking place at different levels and in different forums about the next generation of vehicular networks. The 3GPPP has launched a Work Item to study the feasibility of LTE-based V2X services and connected vehicles are being considered a relevant part of the future 5G ecosystem. The automated (and connected) vehicle will soon come into play and may significantly change the roots of vehicular networks.
This year's conference will be held in Columbus, Ohio, USA at the Hyatt Regency hotel.
5G technologies for connected vehicles
Communications and networking for automated and semi-automated vehicles
Congestion and awareness control in vehicular networks
Novel technologies for V2X (TVWS, LTE-D, VLC, etc.)
Safety and non-safety applications of vehicular networks, including ITS
V2V, V2I and V2X communications and networking protocols
Vehicular communications with VRUs (Vulnerable Road Users) e.g., with bicyclists, pedestrians, etc.
In-vehicle communications (wireless or wired)
Radio propagation and technologies for vehicular networks (propagation models, antennas, etc.)
Protocols for vehicular networking (radio resource management, link layer, routing, mobility management, dissemination, transport etc.)
Security, privacy, liability, and dependability in vehicular networks
Network and QoS management for vehicular networks
Simulation and performance evaluation techniques for vehicular networks
Results from experimental systems, testbeds, and pilot studies
Impact assessments of vehicular networks on safety, transportation efficiency, and the environment
Communications related to electric and hybrid vehicles
Heterogeneous networking approaches (multi-radio, multi-channel, multi-application, multi-technology)
Integration of V2V with on-board systems and networks
Vehicular networking architectures and system design
Applications and services to enhance driver experience, performance, and behavior
12月08日
2016
12月10日
2016
初稿截稿日期
初稿录用通知日期
终稿截稿日期
注册截止日期
2024年05月15日 日本 Kobe
2024 IEEE Vehicular Networking Conference (VNC)2023年04月26日 土耳其 Istanbul
2023 IEEE Vehicular Networking Conference2018年12月05日 中国 Taipei
2018 IEEE Vehicular Networking Conference2017年11月27日 意大利 Torino
2017 IEEE Vehicular Networking Conference2015年12月16日 日本
2015年IEEE车联网大会2014年12月03日 德国
2014年IEEE车联网大会
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