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Joint Transmit and Receive Beamforming Design in Full-Duplex Integrated Sensing and Communications

Ziang Liu, Sundar Aditya, Hongyu Li, Bruno Clerckx

2023IEEE Journal on Selected Areas in Communications100 citationsDOI

Abstract

Integrated sensing and communication (ISAC) has been envisioned as a solution to realize the sensing capability required for emerging applications in wireless networks. For a mono-static ISAC transceiver, as signal transmission durations are typically much longer than the radar echo round-trip times, the radar returns are drowned by the strong residual self interference (SI) from the transmitter, despite adopting sufficient SI cancellation techniques before digital domain - a phenomenon termed the echo-miss problem. A promising approach to tackle this problem involves the ISAC transceiver to be full-duplex (FD), and in this paper we jointly design the transmit and receive beamformers at the transceiver, transmit precoder at the uplink user, and receive combiner at the downlink user to simultaneously 1) maximize the uplink and downlink communication rate; 2) maximize the transmit and receive radar beampattern power at the target; and 3) suppress the residual SI. To solve this optimization problem, we proposed a penalty-based iterative algorithm. Numerical results illustrate that the proposed design can effectively achieve up to 60 dB digital-domain SI cancellation, a higher average sum-rate, and more accurate radar parameter estimation compared with previous ISAC FD studies.

Topics & Concepts

Telecommunications linkComputer scienceBeamformingTransceiverElectronic engineeringTransmitter power outputTransmitterTransmission (telecommunications)WirelessRadarReal-time computingTelecommunicationsChannel (broadcasting)EngineeringFull-Duplex Wireless CommunicationsRadar Systems and Signal ProcessingMicrowave Imaging and Scattering Analysis
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