An opportunistic ISAC system at the Lunar Gateway enables debris detection up to 700 km for slow objects with 36 dB advantage over ground-based systems and improved communication throughput.
Waveform design and signal processing aspects for fusion of wireless communications and radar sensing,
2 Pith papers cite this work. Polarity classification is still indexing.
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In non-coherent bistatic MIMO ISAC, data-aided sensing yields a strict 3 dB effective SNR improvement at low SNR and faster performance scaling at high SNR versus pilot sensing, via closed-form random matrix theory asymptotics.
citing papers explorer
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CisLunarSense: Opportunistic ISAC for Debris Detection at the Lunar Gateway
An opportunistic ISAC system at the Lunar Gateway enables debris detection up to 700 km for slow objects with 36 dB advantage over ground-based systems and improved communication throughput.
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Fundamental Performance Limits of Non-Coherent ISAC: A Data-Aided Sensing Perspective
In non-coherent bistatic MIMO ISAC, data-aided sensing yields a strict 3 dB effective SNR improvement at low SNR and faster performance scaling at high SNR versus pilot sensing, via closed-form random matrix theory asymptotics.