Terahertz-Band Joint Ultra-Massive MIMO Radar-Communications: Model-Based and Model-Free Hybrid Beamforming

Abstract: Wireless communications and sensing at terahertz (THz) band are increasingly investigated as promising shortrange technologies because of the availability of high operational bandwidth at THz. In order to address the extremely high attenuation at THz, ultra-massive multiple-input multiple-output (UM-MIMO) antenna systems have been proposed for THz communications to compensate propagation losses. However, the cost and power associated with fully digital beamformers of these huge antenna arrays are prohibitive. … Show more

“…In JRC systems employing a transmit antenna array, highly directional beamforming toward the radar surveillance area while also ensuring sidelobes on the users offers an interesting solution [13]. In JRC systems involving hybrid analog-digital transceiver architectures [14], antenna selection may also be viewed as a component of resource allocation objective.…”

Resource Allocation in Heterogeneously-Distributed Joint Radar-Communications under Asynchronous Bayesian Tracking Framework

“…In JRC systems employing a transmit antenna array, highly directional beamforming toward the radar surveillance area while also ensuring sidelobes on the users offers an interesting solution [13]. In JRC systems involving hybrid analog-digital transceiver architectures [14], antenna selection may also be viewed as a component of resource allocation objective.…”

Resource Allocation in Heterogeneously-Distributed Joint Radar-Communications under Asynchronous Bayesian Tracking Framework