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.
DebriSense: THz-based integrated sensing and communications (ISAC) for debris detection and classification in the Internet of Space (IoS)
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
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eess.SP 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Derives closed-form BCRB for rain rate from LEO OFDM signals, showing multi-link fusion lowers RMSE bound to ~0.07 mm/h at 20 mm/h rain, and introduces weather-adaptive pilot allocation with three regimes plus sensing-optimal elevation at 15°.
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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Rain Rate Estimation Bounds and Weather-Adaptive Pilot Allocation for LEO Satellite ISAC
Derives closed-form BCRB for rain rate from LEO OFDM signals, showing multi-link fusion lowers RMSE bound to ~0.07 mm/h at 20 mm/h rain, and introduces weather-adaptive pilot allocation with three regimes plus sensing-optimal elevation at 15°.