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Overview of IEEE802.15.4g OFDM and its applicability to smart building applications., , , , and . Wireless Days, page 123-130. IEEE, (2018)A Historical Twist on Long-Range Wireless: Building a 103 km Multi-Hop Network Replicating Claude Chappe's Telegraph., , , , , , , , and . Sensors, 22 (19): 7586 (2022)km-scale Industrial Networking. (km-scale Industrial Networking).. Pierre and Marie Curie University, Paris, France, (2019)Why Channel Hopping Makes Sense, even with IEEE802.15.4 OFDM at 2.4 GHz., , , and . GIoTS, page 1-7. IEEE, (2018)Experimental Interference Robustness Evaluation of IEEE 802.15.4-2015 OQPSK-DSSS and SUN-OFDM Physical Layers., , , , , and . CoRR, (2019)OpenTestBed: Poor Man's IoT Testbed., , , , , , , and . INFOCOM Workshops, page 467-471. IEEE, (2019)Reflective-Mode Submersible Microwave Sensor., , , , , and . IEEE SENSORS, page 1-4. IEEE, (2022)Phase Variation Microfluidic Permittivity Sensor Using a Dispersive Transmission Line., , , , , and . IEEE SENSORS, page 1-4. IEEE, (2022)Assessing Energy Efficiency and Power Quality Impacts Due to High-Efficiency Motors Operating Under Nonideal Energy Supply., , , , , , and . IEEE Access, (2021)Reflective-Mode Phase-Variation Permittivity Sensors Based on Coupled Resonators., , , , , and . IEEE SENSORS, page 1-4. IEEE, (2022)