Can 5G NR Sidelink communications support wireless augmented reality?

TL;DR

This paper evaluates the feasibility of 5G NR Sidelink for supporting wireless augmented reality, finding current standards are limited but can be improved for better AR application support.

Contribution

The study provides a system-level simulation analysis of 5G NR Sidelink for AR, identifying current limitations and proposing enhancements for improved performance.

Findings

Current SL standards support simple AR tasks but not high-end use cases.

Proposed resource allocation enhancements can significantly improve AR support.

Simulation incorporates detailed PHY, MAC, and channel models.

Abstract

Smart glasses that support augmented reality (AR) have the potential to become the consumer's primary medium of connecting to the future internet. For the best quality of user experience, AR glasses must have a small form factor and long battery life, while satisfying the data rate and latency requirements of AR applications. To extend the AR glasses' battery life, the computation and processing involved in AR may be offloaded to a companion device, such as a smartphone, through a wireless connection. Sidelink (SL), i.e., the D2D communication interface of 5G NR, is a potential candidate for this wireless link. In this paper, we use system-level simulations to analyze the feasibility of NR SL for supporting AR. Our simulator incorporates the PHY layer structure and MAC layer resource scheduling of 3GPP SL, standard 3GPP channel models, and MCS configurations. Our results suggest that the current SL standard specifications are insufficient for high-end AR use cases with heavy interaction but can support simpler previews and file transfers. We further propose two enhancements to SL resource allocation, which have the potential to offer significant performance improvements for AR applications.