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Integrated Sensing and Communication System via Dual-Domain Waveform Superposition

Dario Tagliaferri, Marouan Mizmizi, Silvia Mura, Francesco Linsalata, Davide Scazzoli, Damiano Badini, Maurizio Magarini, Umberto Spagnolini

2023IEEE Transactions on Wireless Communications36 citationsDOIOpen Access PDF

Abstract

Integrated sensing and communication (ISAC) systems are recognized as one of the key ingredients of the sixth generation (6G) network. A challenging topic in ISAC is the design of a single waveform combining both communication and sensing functionalities on the same time-frequency-space resources, allowing tuning the performance of both with partial or full hardware sharing. This paper proposes a dual-domain waveform design approach that superposes onto the frequency-time (FT) domain both the legacy orthogonal frequency division multiplexing (OFDM) signal and a sensing one, purposely designed in the delay-Doppler domain. With a proper power downscaling of the sensing signal w.r.t. OFDM, it is possible to exceed regulatory bandwidth limitations proper of legacy multicarrier systems to increase the sensing performance while leaving communication substantially unaffected. Numerical and experimental results prove the effectiveness of the dual-domain waveform, notwithstanding a power abatement of at least 30 dB of the signal used for sensing compared to the one used for communication. The dual-domain ISAC waveform outperforms both OFDM and orthogonal time-frequency-space (OTFS) in terms of Cramér-Rao bound on delay estimation (up to 20 dB), thanks to its superior resolution, with a negligible penalty on the achievable rate.

Topics & Concepts

WaveformOrthogonal frequency-division multiplexingComputer scienceFrequency domainBandwidth (computing)Electronic engineeringTime domainSIGNAL (programming language)MultiplexingTelecommunicationsChannel (broadcasting)EngineeringRadarProgramming languageComputer visionRadar Systems and Signal ProcessingAdvanced SAR Imaging TechniquesOcean Waves and Remote Sensing
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