Journal ArticleDOI
LTE-Advanced enhancement for vehicular communication
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TLDR
In Release 12, the LTE system supports ProSe device-todevice (D2D) service, which can be extended to support vehicular communication.Abstract:
Recently, vehicular communication has become an important application in wireless communications. The Long Term Evolution (LTE) system is considered as one candidate to realize vehicular communication due to many reasons, such as: 1. The LTE system provides extensive coverage. 2. The LTE system provides low transmission latency. 3. In Release 12, the LTE system supports ProSe device-todevice (D2D) service, which can be extended to support vehicular communication.read more
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Journal ArticleDOI
Interworking of DSRC and Cellular Network Technologies for V2X Communications: A Survey
TL;DR: A survey of potential DSRC and cellular interworking solutions for efficient V2X communications, together with the main interworking challenges resulting from vehicle mobility, such as vertical handover and network selection issues.
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Cooperative Vehicular Networking: A Survey
Ejaz Ahmed,Hamid Gharavi +1 more
TL;DR: A comprehensive survey of recent advances in the field of cooperative vehicular networking, including physical, medium access control, and routing protocols, as well as link scheduling and security, is presented.
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Research Advances and Challenges of Autonomous and Connected Ground Vehicles
TL;DR: A representative architecture of CAVs is introduced and the latest research advances, methods, and algorithms for sensing, perception, planning, and control of CAV are surveyed and their significant research issues enumerated.
Journal ArticleDOI
A tutorial survey on vehicular communication state of the art, and future research directions
TL;DR: The emerging radio access technologies such as visible light communication, mmWave, Cellular-V2X, and 5G for connected and autonomous vehicles and their associated challenges are presented.
Journal ArticleDOI
Better Platooning Control Toward Autonomous Driving : An LTE Device-to-Device Communications Strategy That Meets Ultralow Latency Requirements
TL;DR: The proposed solution is shown to fulfill the ultralow latency requirements of messaging in the platoon and is able to provide spatial reuse of LTE resources among members of the same platoon and of different platoons, thus drastically reducing the capacity demand.