A sectorized 3D antenna design with spatial resource allocation and user clustering is proposed to maximize data rate in massive MIMO HAPS systems by mitigating spatial correlation and interference.
Hemispherical Antenna Array Architecture for High-Altitude Platform Stations (
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Environment-conditioned parametric regression on 12-month indoor LoRaWAN data reduces cross-validated RMSE from 8.23 dB to 7.38 dB and lowers the fade margin needed for 99% reliability from ~28 dB to 25.73 dB.
citing papers explorer
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A Novel 3D Antenna Architecture with Spatial Resource Allocation for Massive MIMO HAPS
A sectorized 3D antenna design with spatial resource allocation and user clustering is proposed to maximize data rate in massive MIMO HAPS systems by mitigating spatial correlation and interference.
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Environment-Aware Indoor LoRaWAN Path Loss: Parametric Regression Comparisons, Shadow Fading, and Calibrated Fade Margins
Environment-conditioned parametric regression on 12-month indoor LoRaWAN data reduces cross-validated RMSE from 8.23 dB to 7.38 dB and lowers the fade margin needed for 99% reliability from ~28 dB to 25.73 dB.