Vehicular communication applications, be it for driver-assisting augmented reality systems or fully driverless vehicles, require an efficient communication infrastructure for timely …
Vehicular communication applications, be it for driver-assisting augmented reality systems or fully driverless vehicles, require an efficient communication architecture for timely …
Vehicular communication applications require an efficient communication architecture for timely information delivery. Centralized, cloud-based infrastructures present latencies too …
A Aissioui, A Ksentini, AM Gueroui… - IEEE Transactions on …, 2018 - ieeexplore.ieee.org
One of the key targets of the upcoming 5G system is to build a mobile network architecture that supports not only classical mobile broadband applications (ie, Internet and IMS), but …
P Arthurs, L Gillam, P Krause, N Wang… - IEEE Transactions …, 2021 - ieeexplore.ieee.org
Recent advances in smart connected vehicles and Intelligent Transportation Systems (ITS) are based upon the capture and processing of large amounts of sensor data. Modern …
Wireless communication capabilities currently transform the automotive landscape. Short- range communication technologies enable a wide range of Information and Communication …
J Feng, Z Liu, C Wu, Y Ji - IEEE vehicular technology magazine, 2018 - ieeexplore.ieee.org
As an enabling technology for the Internet of Vehicles (IoV), mobile edge computing (MEC) provides potential solutions for sharing the computation capabilities among vehicles, in …
The automotive and telco industries have taken an investment bet on the connected car market, pushing for the digital transformation of the sector by exploiting recent information …
Mobile edge computing (MEC) has been recently proposed to bring computing capabilities closer to mobile endpoints, with the aim of providing low latency and real-time access to …