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Main Authors: Björnson, Emil, Kara, Ferdi, Kolomvakis, Nikolaos, Kosasih, Alva, Ramezani, Parisa, Salman, Murat Babek
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.05630
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author Björnson, Emil
Kara, Ferdi
Kolomvakis, Nikolaos
Kosasih, Alva
Ramezani, Parisa
Salman, Murat Babek
author_facet Björnson, Emil
Kara, Ferdi
Kolomvakis, Nikolaos
Kosasih, Alva
Ramezani, Parisa
Salman, Murat Babek
contents The initial 6G networks will likely operate in the upper mid-band (7-24 GHz), which has decent propagation conditions but underwhelming new spectrum availability. In this paper, we explore whether we can anyway reach the ambitious 6G performance goals by evolving the multiple-input multiple-output (MIMO) technology from massive in 5G to gigantic in 6G. We describe how many antennas are needed to reach the envisioned 6G peak user rates, how many can realistically be deployed in practical radio equipment, and what the practical spatial degrees-of-freedom might become. We further suggest a new deployment strategy that enables the utilization of radiative near-field effects in these bands for precise beamfocusing, localization, and sensing from a single base station site. Finally, we identify open research and standardization challenges that must be overcome to efficiently use gigantic MIMO dimensions in 6G from hardware, cost, and algorithmic perspectives.
format Preprint
id arxiv_https___arxiv_org_abs_2407_05630
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Enabling 6G Performance in the Upper Mid-Band by Transitioning From Massive to Gigantic MIMO
Björnson, Emil
Kara, Ferdi
Kolomvakis, Nikolaos
Kosasih, Alva
Ramezani, Parisa
Salman, Murat Babek
Information Theory
Signal Processing
The initial 6G networks will likely operate in the upper mid-band (7-24 GHz), which has decent propagation conditions but underwhelming new spectrum availability. In this paper, we explore whether we can anyway reach the ambitious 6G performance goals by evolving the multiple-input multiple-output (MIMO) technology from massive in 5G to gigantic in 6G. We describe how many antennas are needed to reach the envisioned 6G peak user rates, how many can realistically be deployed in practical radio equipment, and what the practical spatial degrees-of-freedom might become. We further suggest a new deployment strategy that enables the utilization of radiative near-field effects in these bands for precise beamfocusing, localization, and sensing from a single base station site. Finally, we identify open research and standardization challenges that must be overcome to efficiently use gigantic MIMO dimensions in 6G from hardware, cost, and algorithmic perspectives.
title Enabling 6G Performance in the Upper Mid-Band by Transitioning From Massive to Gigantic MIMO
topic Information Theory
Signal Processing
url https://arxiv.org/abs/2407.05630