Results 211 to 220 of about 43,067 (264)
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Vehicle to Infrastructure VLC Channel Models
2020 IEEE 91st Vehicular Technology Conference (VTC2020-Spring), 2020Self-driving cars have become a popular research topic since the 1990s. Autonomous vehicles significantly benefit from seamless wireless connections between cars or between cars and the infrastructure. Vehicular visible light communications (V-VLC) can be considered as a complementary technology to radio frequency-based (RF-based) communications. V-VLC
Xiaotong Shen, Harald Haas
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Vehicle Charging Infrastructure Security
2019 IEEE International Conference on Consumer Electronics (ICCE), 2019The electric vehicle charging infrastructure supports Plug-in Electric Vehicle (PEV) refueling through vehicle charging equipment (EVSE). Communication and control methods are being developed and tested to respond to growing PEV electrical load and enable this new grid load to expand renewable resource integration and grid services, without additional ...
Richard M. Pratt, Thomas E. Carroll
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Security in Vehicle-to-Infrastructure Communications
AHFE International, 2022By 2020, the number of connected vehicles will reach 250 million units. Thus, one of five vehicles worldwide will count on any wireless connection. Functional areas such as telecommunications, infotainment, automatic driving, or mobility services will have to face the implications caused by that growth.
Pablo Marcillo +2 more
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On Wireless Links for Vehicle-to-Infrastructure Communications
IEEE Transactions on Vehicular Technology, 2010Future intelligent transportation systems (ITS) will necessitate wireless vehicle-to-infrastructure (V2I) communications. This wireless link can be implemented by several technologies, such as digital broadcasting, cellular communication, or dedicated short-range communication (DSRC) systems.
P. Belanovic +5 more
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Automated Vehicles and Infrastructure Enablers
2022<div class="section abstract"><div class="htmlview paragraph">Manufacturers and developers of automated vehicles (AVs) often maintain that no new infrastructure enablers are needed to achieve full AV deployment aside from existing infrastructure investments (e.g., connected traffic signals, designated
Kelley Coyner, Jason Bittner
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Vehicle-to-Infrastructure Communication
2018Vehicular ad hoc networks (VANETs) provide applications that focus on driver safety, traffic efficiency of vehicles on public roads, and the comfort and entertainment of passengers throughout their journey. Some of these applications require connections to the Internet via an access point (AP) at roadsides, such as a cell tower or Wi-Fi tower.
Rodolfo I. Meneguette +2 more
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An Approach of Telecommunication System for Vehicles and Infrastructures
2017This paper introduces the technical characteristics of ZigBee and Bluetooth communication protocol, the development trend and some applications in the field of intelligent traffic vehicle communication. This paper discusses the condition that traffic information is sent from the road side to the vehicle and from the vehicle to the road side through ...
Jiawei Wang +5 more
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Vehicle to Infrastructure Communications
2018Vehicle to Infrastructure communications (V2I) is one of the emerging connected vehicles technologies. V2I holds a promise for significant benefits to both road users and operators. Automotive manufacturers and USDOT invested considerable research efforts in V2I communications technology.
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A mechanism to enforce privacy in vehicle-to-infrastructure communication
Computer Communications, 2008Privacy-related issues are crucial for the wide diffusion of Vehicular Communications (VC). In particular, traffic analysis is one of the subtler threats to privacy in VC. In this paper we first briefly review current work in literature addressing privacy issues and survey vehicular mobility models.
Paolo Cencioni, Roberto Di Pietro
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