A Survey on Devices Exploiting Lora Communication

[1] Annual reports archive - Ericsson. Available: https://www.ericsson.com/en/investors/financial-reports/annual-reportsSearch in Google Scholar

[2] Manyika, J. (2015), The Internet of Things: Mapping the value beyond the hype, McKinsey Global Institute.Search in Google Scholar

[3] Malmodin, J., & Bergmark, P. (2015), Exploring the effect of ICT solutions on GHG emissions in 2030, In EnviroInfo and ICT for Sustainability 2015, Atlantis Press.10.2991/ict4s-env-15.2015.5Search in Google Scholar

[4] de Oliveira, L. R., de Moraes, P., Neto, L. P., & da Conceição, A. F. (2020), Review of LoRaWAN Applications, arXiv preprint arXiv:2004.05871.Search in Google Scholar

[5] Della Mea, V., et al. (2020), A Communication Infrastructure for the Health and Social Care Internet of Things: Proof-of-Concept Study, JMIR Medical Informatics, 8(2), e14583..10.2196/14583706494832130158Search in Google Scholar

[6] Albahri, A. S., et al. (2020), IoT-based telemedicine for disease prevention and health promotion: State-of-the-Art, Journal of Network and Computer Applications, 102873.10.1016/j.jnca.2020.102873Search in Google Scholar

[7] Gaitan, N. C., & Hojbota, P. (2020), Forest Fire Detection System using LoRa Technology, Forest, 11(5).10.14569/IJACSA.2020.0110503Search in Google Scholar

[8] Sendra, S., et al. (2020), LoRaWAN Network for Fire Monitoring in Rural Environments, Electronics, 9(3), 531.10.3390/electronics9030531Search in Google Scholar

[9] Gao, D., Xin, J., & Zhang, F. (2020), A decision tree algorithm for forest fire prediction based on wireless sensor networks, International Journal of Embedded Systems, 13(4), 422-430.10.1504/IJES.2020.110656Search in Google Scholar

[10] Sánchez Sutil, F., & Cano-Ortega, A. (2020), Smart public lighting control and measurement system using LoRa network, Electronics, 9(1), 124.10.3390/electronics9010124Search in Google Scholar

[11] Why LoRa? / Semtech LoRa Technology / Semtech. Available: https://www.semtech.com/lora/why-loraSearch in Google Scholar

[12] Jadhav, A. R., & Rajalakshmi, P. (2020), Enhanced LoRa Data Rate through PATCH, In 2020 IEEE 6th World Forum on Internet of Things (WFIoT) (pp. 1-6). IEEE.10.1109/WF-IoT48130.2020.9221082Search in Google Scholar

[13] Tsai, K. L., et al. (2020), Secure Session Key Generation Method for LoRaWAN Servers, IEEE Access, 8, 54631-54640.10.1109/ACCESS.2020.2978100Search in Google Scholar

[14] Xu, W., et al. (2019), Measurement, Characterization, and Modeling of LoRa Technology in Multifloor Buildings, IEEE Internet of Things Journal, 7(1), 298-310.10.1109/JIOT.2019.2946900Search in Google Scholar

[15] Dobra, I. M., et al. (2020), LoRa propagation test in an urban environment and office buildings, In 2020 IEEE International Conference on Automation, Quality and Testing, Robotics (AQTR) (pp. 1-5). IEEE.10.1109/AQTR49680.2020.9129949Search in Google Scholar

[16] Glória, A., et al. (2020), Water Management for Sustainable Irrigation Systems Using Internet-of-Things, Sensors, 20(5), 1402.10.3390/s20051402708553532143482Search in Google Scholar

[17] Basford, P. J., et al. (2020), LoRaWAN for smart city IoT deployments: A long term evaluation, Sensors, 20(3), 648.10.3390/s20030648703835331979377Search in Google Scholar

[18] Kongsavat, A., & Karupongsiri, C. (2020), Path Loss Model for Smart Meter on LoRaWAN Technology with Unidirectional Antenna in an Urban Area of Thailand, In 2020 IEEE International Conference on Computational Electromagnetics (ICCEM) (pp. 260-262), IEEE.10.1109/ICCEM47450.2020.9219522Search in Google Scholar

[19] Fernandez, L., et al. (2020), Assessing LoRa for Satellite-to-Earth Communications Considering the Impact of Ionospheric Scintillation, IEEE Access, 8, 165570-165582.10.1109/ACCESS.2020.3022433Search in Google Scholar

[20] Kouzinopoulos, C. S., et al. (2019), AMANDA: an autonomous self-powered miniaturized smart sensing embedded system, In 2019 IEEE 9th International Conference on Consumer Electronics (ICCE-Berlin) (pp. 324-329), IEEE.10.1109/ICCE-Berlin47944.2019.8966223Search in Google Scholar

[21] Mayer, P., et al. (2020), RTK-LoRa: High-Precision, Long-Range and Energy-Efficient Localization for Mobile IoT devices, In 2020 IEEE Sensors Applications Symposium (SAS) (pp. 1-5), IEEE.10.1109/SAS48726.2020.9220057Search in Google Scholar

[22] SX1272 / Long Range, Low Power RF Transceiver 860-1000MHz / Semtech. Available: https://www.semtech.com/products/wireless-rf/lora-transceivers/sx1272.Search in Google Scholar

[23] SX1276 / 137MHz to 1020MHz Long Range Low Power Transceiver / Semtech. Available: https://www.semtech.com/products/wireless-rf/lora-transceivers/sx1276.Search in Google Scholar

[24] SX1261 / Long Range Low Power LoRaR RF Transceiver +15dBm / Semtech. Available: https://www.semtech.com/products/wireless-rf/lora-transceivers/sx1261.Search in Google Scholar

[25] Souifi, J., et al. (2020), Smart Home Architecture based on LoRa Wireless Connectivity and LoRaWAN® Networking Protocol, In 020 1st International Conference on Communications, Control Systems and Signal Processing (CCSSP) (pp. 95-99). IEEE.10.1109/CCSSP49278.2020.9151815Search in Google Scholar

[26] Ferrari, P., et al. (2020), On the use of LoRaWAN for the Internet of Intelligent Vehicles in Smart City scenarios, In 2020 IEEE Sensors Applications Symposium (SAS) (pp. 1-6), IEEE.10.1109/SAS48726.2020.9220069Search in Google Scholar

[27] Ameloot, T., Van Torre, P., & Rogier, H. (2020), LoRa Base-Station-to-Body Communication with SIMO Front-to-Back Diversity, IEEE Transactions on Antennas and Propagation.10.1109/TAP.2020.3008660Search in Google Scholar

[28] Ameloot, T., Van Torre, P., & Rogier, H. (2020), Experimental Parameter Optimization for Adaptive LoRa Modulation in Body-Centric Applications, In 2020 14th European Conference on Antennas and Propagation (EuCAP) (pp. 1-5), IEEE.10.23919/EuCAP48036.2020.9135413Search in Google Scholar

[29] Lange, S., Pohl, J., & Santarius, T. (2020), Digitalization and energy consumption. Does ICT reduce energy demand?, Ecological Economics, 176, 106760.10.1016/j.ecolecon.2020.106760Search in Google Scholar

[30] Boquet, G., et al. (2020), LoRa-E: Overview and Performance Analysis, arXiv preprint arXiv:2010.00491.Search in Google Scholar

[31] Paredes, M., Bertoldo, S., Carosso, L., Lucianaz, C., Marchetta, E., Allegretti, M., & Savi, P. (2019), Propagation measurements for a LoRa network in an urban environment, Journal of Electromagnetic Waves and Applications, 33(15), 2022-2036.10.1080/09205071.2019.1661287Search in Google Scholar

[32] Bertoldo, S., Paredes, M., Carosso, L., Allegretti, M., & Savi, P. (2019), Empirical indoor propagation models for LoRa radio link in an office environment, In 2019 13th European Conference on Antennas and Propagation (EuCAP) (pp. 1-5). IEEE.Search in Google Scholar

[33] Sales Mendes, A., et al. (2020), Multi-agent approach using LoRaWAN devices: An airport case study. Electronics, 9(9), 1430.10.3390/electronics9091430Search in Google Scholar

[34] Kufakunesu, R., Hancke, G. P., & Abu-Mahfouz, A. M. (2020), A survey on Adaptive Data Rate optimization in LoRaWAN: Recent solutions and major challenges, Sensors, 20(18), 5044.10.3390/s20185044757100532899454Search in Google Scholar

[35] Singh, R. K., et al. (2020), Leveraging LoRaWAN Technology for Precision Agriculture in Greenhouses, Sensors, 20(7), 1827.10.3390/s20071827718121032218353Search in Google Scholar

[36] Noura, H., Hatoum, T., Salman, O., Yaacoub, J. P., & Chehab, A. (2020), LoRaWAN Security Survey: Issues, Threats and Possible Mitigation Techniques, Internet of Things, 100303.10.1016/j.iot.2020.100303Search in Google Scholar

[37] Cotrim, J. R., & Kleinschmidt, J. H. (2020), LoRaWAN Mesh Networks: A Review and Classification of Multihop Communication, Sensors, 20(15), 4273.10.3390/s20154273743545032751877Search in Google Scholar