Next Generation Wi-Fi and 5G NR-U in the 6 GHz Bands: Opportunities & Challenges

TL;DR

This paper surveys the opportunities and challenges of deploying Wi-Fi and 5G NR-U in the newly opened 6 GHz unlicensed spectrum, highlighting design considerations, coexistence issues, and future research directions.

Contribution

It provides a comprehensive overview of current research, standardization efforts, and key challenges for unlicensed RATs operating in the 6 GHz bands.

Findings

Identification of key features in next-generation Wi-Fi for 6 GHz

Analysis of coexistence challenges with incumbent users and other RATs

Highlighting critical research problems for efficient spectrum utilization

Abstract

The ever-increasing demand for unlicensed spectrum has prompted regulators in the US and Europe to consider opening up the 6 GHz bands for unlicensed access. These bands will open up 1.2 GHz of additional spectrum for unlicensed radio access technologies (RATs), such as Wi-Fi and 5G New Radio Unlicensed (NR-U), in the US and if permitted, 500 MHz of additional spectrum in Europe. The abundance of spectrum in these bands creates new opportunities for the design of mechanisms and features that can support the emerging bandwidth-intensive and latency-sensitive applications. However, coexistence of unlicensed devices both with the bands' incumbent users and across different unlicensed RATs present significant challenges. In this paper, we provide a comprehensive survey of the existing literature on various issues surrounding the operations of unlicensed RATs in the 6 GHz bands. In particular, we discuss how key features in next-generation Wi-Fi are being designed to leverage these additional unlicensed bands. We also shed light on the foreseeable challenges that designers of unlicensed RATs might face in the near future. Our survey encompasses key research papers, contributions submitted to standardization bodies and regulatory agencies, and documents presented at various other venues. Finally, we highlight a few key research problems that are likely to arise due to unlicensed operations in the 6 GHz bands. Tackling these research challenges effectively will be critical in ensuring that the new unlicensed bands are efficiently utilized while guaranteeing the interference-free operation of the bands' incumbent users.