Cell-less Communications in 5G Vehicular Networks Based on Vehicle-Installed Access Points

TL;DR

This paper introduces a cell-less 5G vehicular network scheme using vehicle-installed access points and cooperative communication, significantly reducing latency and enhancing connectivity.

Contribution

It proposes a novel cell-less communication scheme with vehicle-installed access points and cooperative transmission, managed by software-defined cloudlets, for improved 5G vehicular networks.

Findings

Reduced latency in vehicular communications

Enhanced network connectivity

Effective cooperative transmission strategy

Abstract

The development of intelligent transportation systems raises many requirements to the current vehicular networks. For instance, to ensure secure communications between vehicles, low latency, high connectivity and high data rate are required for vehicular networks. To meet such requirements, the 5G communication systems for vehicular networks should be improved accordingly. This article proposes a communication scheme for 5G vehicular networks, in which moving access points are deployed on vehicles to facilitate the access of vehicle users. Moreover, the adjacent vehicle-installed moving access points may cooperatively communicate with the vehicle users by joint transmissions and receptions. In this way, the vehicle users communicate with one or more unspecified cooperative access points in a cell-less manner instead of being associated to a single access point. To manage such cell-less networks, local moving software-defined cloudlets are adopted to perform transmission and scheduling management. Simulation results show that the proposed scheme significantly reduces the latency, while improving the connectivity of the vehicular networks, and can be considered as a research direction for the solution to 5G vehicular networks.