Hardware-friendly two-stage spatial equalization for all-digital mm-wave massive MU-MIMO
Paper in proceeding, 2020
Next generation wireless communication systems are expected to combine millimeter-wave communication with massive multi-user multiple-input multiple-output technology. All-digital base-station implementations for such systems need to process high-dimensional data at extremely high rates, which results in excessively high power consumption. In this paper, we propose two-stage spatial equalizers that first reduce the problem dimension by means of a hardware-friendly, low-resolution linear transform followed by spatial equalization on a lower-dimensional signal. We consider adaptive and non-adaptive dimensionality reduction strategies and demonstrate that the proposed two-stage spatial equalizers are able to approach the performance of conventional linear spatial equalizers that directly operate on high-dimensional data, while offering the potential to reduce the power consumption of spatial equalization.
Author
Oscar Castaneda
Swiss Federal Institute of Technology in Zürich (ETH)
Sven Jacobsson
Chalmers, Electrical Engineering, Communication, Antennas and Optical Networks
Ericsson
Giuseppe Durisi
Chalmers, Electrical Engineering, Communication, Antennas and Optical Networks
Tom Goldstein
University of Maryland
Christoph Studer
Swiss Federal Institute of Technology in Zürich (ETH)
Conference Record - Asilomar Conference on Signals, Systems and Computers
10586393 (ISSN)
Vol. 2020
Asilomar Conference on Signals, Systems and Computers
Pacific Grove, USA,
Pacific Grove, USA,
Integrated Antenna Arrays
Ericsson, 2016-01-01 -- 2023-12-29.
Saab, 2016-01-01 -- 2023-12-29.
United Monolithic Semiconductors (UMS), 2016-01-01 -- 2023-12-29.
Kongsberg kommune, 2016-01-01 -- 2023-12-29.
Gapwaves AB, 2016-01-01 -- 2023-12-29.
VINNOVA, 2016-01-01 -- 2021-12-31.
Areas of Advance
Information and Communication Technology
Subject Categories
Telecommunications
Signal Processing
Computer Science