Multi-Path Cooperative Communications Networks for Augmented and Virtual Reality Transmission

TL;DR

This paper proposes a multi-path cooperative routing scheme with an energy optimization algorithm for AR/VR transmission in 5G small cell networks, significantly reducing delay and energy consumption compared to traditional methods.

Contribution

It introduces a novel multi-path cooperative route scheme and an energy optimization algorithm tailored for AR/VR in 5G small cell networks, enhancing performance.

Findings

MCR scheme reduces delay compared to single path routes.

SEEO algorithm improves energy efficiency in AR/VR transmission.

Simulation confirms superior performance of proposed methods.

Abstract

Augmented and/or virtual reality (AR/VR) are emerging as one of the main applications in future fifth generation (5G) networks. To meet the requirements of lower latency and massive data transmission in AR/VR applications, a solution with software-defined networking (SDN) architecture is proposed for 5G small cell networks. On this basis, a multi-path cooperative route (MCR) scheme is proposed to facilitate the AR/VR wireless transmissions in 5G small cell networks, in which the delay of MCR scheme is analytically studied. Furthermore, a service effective energy optimal (SEEO) algorithm is developed for AR/VR wireless transmission in 5G small cell networks. Simulation results indicate that both the delay and service effective energy (SEE) of the proposed MCR scheme outperform the delay and SEE of the conventional single path route scheme in 5G small cell networks.