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Energy Efficiency Optimization for Subterranean LoRaWAN Using a Reinforcement Learning Approach: A Direct-to-Satellite Scenario.

, , , , и . IEEE Wirel. Commun. Lett., 13 (2): 308-312 (февраля 2024)

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Konstantin Thress

Konstantin Meskouris

Konstantin Pussep

Konstantin Ens

Konstantin Glaum

 

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Experimental RF-signal based wireless energy transmission., , и . EuCNC, стр. 1-6. IEEE, (2017)WBAN Energy Efficiency and Dependability Improvement Utilizing Wake-Up Receiver., , , , , и . IEICE Trans. Commun., 98-B (4): 535-542 (2015)Wireless Energy Transfer Powered Wireless Sensor Node for Green IoT: Design, Implementation and Evaluation., , , и . Sensors, 19 (1): 90 (2019)LPWAN Coverage Assessment Planning Without Explicit Knowledge of Base Station Locations., , , , , , , , , и . IEEE Internet Things J., 9 (6): 4031-4050 (2022)Understanding the Limits of LoRa Direct-to-Satellite: The Doppler Perspectives., , , и . IEEE Open J. Commun. Soc., (2024)Energy Efficiency Optimization for Subterranean LoRaWAN Using a Reinforcement Learning Approach: A Direct-to-Satellite Scenario., , , , и . IEEE Wirel. Commun. Lett., 13 (2): 308-312 (февраля 2024)Wirelessly Powered Urban Crowd Sensing over Wearables: Trading Energy for Data., , , , и . IEEE Wirel. Commun., 25 (2): 140-149 (2018)LoRaWANSim: A Flexible Simulator for LoRaWAN Networks., , , и . Sensors, 21 (3): 695 (2021)On feasibility of 5G-grade dedicated RF charging technology for wireless-powered wearables., , , , , и . IEEE Wirel. Commun., 23 (2): 28-37 (2016)Investigation of the Performance of TDoA-Based Localization Over LoRaWAN in Theory and Practice., , и . Sensors, 20 (19): 5464 (2020)