Analog Beamforming Aided by Full-Dimension One-Bit Chains

This paper investigates the design of analog beamforming at the receiver in millimeter-wave (mmWave) multiple-input multiple-output (MIMO) systems, aided by full digital chains featuring 1-bit ADCs. We advocate utilizing these full digital chains to facilitate rapid channel estimation and beam acquisition for subsequent communication, even without prior knowledge of the training pilots. To balance energy consumption and implementation costs, we opt for 1-bit ADCs. We propose a two-stage maximum likelihood (ML)-based algorithm to estimate angles of arrival (AoAs) and facilitate the design of analog beamforming to maximize the received signal-to-noise ratio (SNR). We validate our proposed beamforming schemes in narrowband coherent channels through synthetic testing and in wideband coherent channels, particularly under the 3GPP clustered-delay-line (CDL)-C channel model.