This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Afsarimanesh, N., Alahi, M. E. E., Mukhopadhyay, S. C. and Kruger, M. 2018. Development of IoT-based impedometric biosensor for point-of-care monitoring of bone loss. IEEE Journal on Emerging and Selected Topics in Circuits and Systems 8(2): 211–220.AfsarimaneshN.AlahiM. E. E.MukhopadhyayS. C. and KrugerM.2018Development of IoT-based impedometric biosensor for point-of-care monitoring of bone lossIEEE Journal on Emerging and Selected Topics in Circuits and Systems8(2):211–220Search in Google Scholar
Akhter, F., Khadivizand, S., Siddiquei, H. R., Alahi, M. E. E. and Mukhopadhyay, S. 2019. IoT enabled intelligent sensor node for smart city: pedestrian counting and ambient monitoring. Sensors 19: 3374–3393.AkhterF.KhadivizandS.SiddiqueiH. R.AlahiM. E. E. and MukhopadhyayS.2019IoT enabled intelligent sensor node for smart city: pedestrian counting and ambient monitoringSensors193374–3393Search in Google Scholar
Alahi, M. E. E., Pereira-Ishak, N., Mukhopadhyay, S. C. and Burkitt, L. 2018. An Internet-of-Things enabled smart sensing system for nitrate monitoring. IEEE Internet of Things Journal 5(6): 4409–4417.AlahiM. E. E.Pereira-IshakN.MukhopadhyayS. C. and BurkittL.2018An Internet-of-Things enabled smart sensing system for nitrate monitoringIEEE Internet of Things Journal5(6):4409–4417Search in Google Scholar
Augustin, A., Yi, J., Clausen, T. and Townsley, W. 2016. A study of LoRa: long range & low power networks for the Internet of Things. Sensors 16(9): 1466–1484.AugustinA.YiJ.ClausenT. and TownsleyW.2016A study of LoRa: long range & low power networks for the Internet of ThingsSensors16(9):1466–1484Search in Google Scholar
Choi, Y. -J., Kang, H. -J. and Lee, I. -G. 2019. Scalable and secure Internet of Things connectivity. Electronics 8(7): 752–767.ChoiY. -J.KangH. -J. and LeeI. -G.2019Scalable and secure Internet of Things connectivityElectronics8(7):752–767Search in Google Scholar
Collotta, M., Pau, G., Talty, T. and Tonguz, O. K. 2018. Bluetooth 5: a concrete step forward toward the IoT. IEEE Communications Magazine 56: 125–131.CollottaM.PauG.TaltyT. and TonguzO. K.2018Bluetooth 5: a concrete step forward toward the IoTIEEE Communications Magazine56125–131Search in Google Scholar
Davcev, D., Mitreski, K., Trajkovic, S., Nikolovski, V. and Koteli, N. 2018. IoT agriculture system based on LoRaWAN. 14th IEEE International Workshop on Factory Communication Systems (WFCS), Imperia, 1–4.DavcevD.MitreskiK.TrajkovicS.NikolovskiV. and KoteliN.2018IoT agriculture system based on LoRaWAN14th IEEE International Workshop on Factory Communication Systems (WFCS), Imperia1–4Search in Google Scholar
Germani, L., Mecarelli, V., Baruffa, G., Rugini, L. and Frescura, F. 2019. An IoT architecture for continuous livestock monitoring using LoRa LPWAN. Electronics 8(12): 1435–1463.GermaniL.MecarelliV.BaruffaG.RuginiL. and FrescuraF.2019An IoT architecture for continuous livestock monitoring using LoRa LPWANElectronics8(12):1435–1463Search in Google Scholar
Haxhibeqiri, J., Karaagac, A., Van den Abeele, F., Joseph, W., Moerman, I. and Hoebeke, J. 2017. LoRa indoor coverage and performance in an industrial environment: case study. 22nd IEEE International Conference on Emerging Technologies and Factory Automation (ETFA), Limassol, 1–8.HaxhibeqiriJ.KaraagacA.Van den AbeeleF.JosephW.MoermanI. and HoebekeJ.2017LoRa indoor coverage and performance in an industrial environment: case study22nd IEEE International Conference on Emerging Technologies and Factory Automation (ETFA)Limassol1–8Search in Google Scholar
Hughes, J., Yan, J. and Soga, K. 2015. Development of wireless sensor network using bluetooth low energy (BLE) for construction noise monitoring. International Journal of Smart Sensing and Intelligent Systems 8(2): 1379–405.HughesJ.YanJ. and SogaK.2015Development of wireless sensor network using bluetooth low energy (BLE) for construction noise monitoringInternational Journal of Smart Sensing and Intelligent Systems8(2):1379–405Search in Google Scholar
Huh, H. and Kim, J. Y. 2019. LoRa-based Mesh network for IoT applications. 2019 IEEE 5th World Forum on Internet of Things (WF-IoT), Limerick, 524–527.HuhH. and KimJ. Y.2019LoRa-based Mesh network for IoT applications2019 IEEE 5th World Forum on Internet of Things (WF-IoT)Limerick524–527Search in Google Scholar
Jawad, H. M., Nordin, R., Gharghan, S. K., Jawad, A. M. and Ismail, M. 2017. Energy-efficient wireless sensor networks for precision agriculture: a review. Sensors 17(8): 1781–1826.JawadH. M.NordinR.GharghanS. K.JawadA. M. and IsmailM.2017Energy-efficient wireless sensor networks for precision agriculture: a reviewSensors17(8):1781–1826Search in Google Scholar
Kazakov, G. N., Petrakov, A. M. and Shevtsov, V. A. 2020. Radio monitoring of wireless networks using LoRa data transmission technology. 2020 Systems of Signals Generating and Processing in the Field of on Board Communications, Moscow, 1–5.KazakovG. N.PetrakovA. M. and ShevtsovV. A.2020Radio monitoring of wireless networks using LoRa data transmission technology2020 Systems of Signals Generating and Processing in the Field of on Board CommunicationsMoscow1–5Search in Google Scholar
Kumar, N. M. and Mallick, P. K. 2018. The Internet of Things: insights into the building blocks, component interactions, and architecture layers. Procedia Computer Science 132: 109–117.KumarN. M. and MallickP. K.2018The Internet of Things: insights into the building blocks, component interactions, and architecture layersProcedia Computer Science132109–117Search in Google Scholar
Lysogor, I. I., Voskov, L. S. and Efremov, S. G. 2018. Survey of data exchange formats for heterogeneous LPWAN-satellite IoT networks. 2018 Moscow Workshop on Electronic and Networking Technologies (MWENT), Moscow, 1–5.LysogorI. I.VoskovL. S. and EfremovS. G.2018Survey of data exchange formats for heterogeneous LPWAN-satellite IoT networks2018 Moscow Workshop on Electronic and Networking Technologies (MWENT)Moscow1–5Search in Google Scholar
Magrin, D., Centenaro, M. and Vangelista, L. 2017. Performance evaluation of LoRa networks in a smart city scenario. 2017 IEEE International Conference on Communications (ICC), Paris, 1–7.MagrinD.CentenaroM. and VangelistaL.2017Performance evaluation of LoRa networks in a smart city scenario2017 IEEE International Conference on Communications (ICC)Paris1–7Search in Google Scholar
Mekki, K., Bajic, E., Chaxel, F. and Meyer, F. 2019. A comparative study of LPWAN technologies for large-scale IoT deployment. ICT Express 5(1): 1–7.MekkiK.BajicE.ChaxelF. and MeyerF.2019A comparative study of LPWAN technologies for large-scale IoT deploymentICT Express5(1):1–7Search in Google Scholar
Nag, A., Alahi, M. E. E., Feng, S. and Mukhopadhyay, S. C. 2019. IoT-based sensing system for phosphate detection using Graphite/PDMS sensors. Sensors and Actuators A: Physical 286: 43–50.NagA.AlahiM. E. E.FengS. and MukhopadhyayS. C.2019IoT-based sensing system for phosphate detection using Graphite/PDMS sensorsSensors and Actuators A: Physical28643–50Search in Google Scholar
Navarro-Ortiz, J., Sendra, S., Ameigeiras, P. and Lopez-Soler, J. M. 2018. Integration of LoRaWAN and 4G/5G for the Industrial Internet of Things. IEEE Communications Magazine 56(2): 60–67.Navarro-OrtizJ.SendraS.AmeigeirasP. and Lopez-SolerJ. M.2018Integration of LoRaWAN and 4G/5G for the Industrial Internet of ThingsIEEE Communications Magazine56(2):60–67Search in Google Scholar
Pasolini, G., Buratti, C., Feltrin, L., Zabini, F., De Castro, C., Verdone, R. and Andrisano, O. 2018. Smart city pilot projects using LoRa and IEEE802.15.4 technologies. Sensors 18(4): 1118 –1125.PasoliniG.BurattiC.FeltrinL.ZabiniF.De CastroC.VerdoneR. and AndrisanoO.2018Smart city pilot projects using LoRa and IEEE802.15.4 technologiesSensors18(4):1118–1125Search in Google Scholar
Petäjäjärvi, J., Mikhaylov, K., Hämäläinen, M. and Iinatti, J. 2016. Evaluation of LoRa LPWAN technology for remote health and wellbeing monitoring. 10th International Symposium on Medical Information and Communication Technology (ISMICT), Worcester, MA, 1–5.PetäjäjärviJ.MikhaylovK.HämäläinenM. and IinattiJ.2016Evaluation of LoRa LPWAN technology for remote health and wellbeing monitoring10th International Symposium on Medical Information and Communication Technology (ISMICT)Worcester, MA1–5Search in Google Scholar
Pirbhulal, S., Zhang, H., Alahi, M. E. E., Ghayvat, H., Mukhopadhyay, S. C., Zhang, Y. -T. and Wu, W. 2017. A novel secure IoT-based smart home automation system using a wireless sensor network. Sensors 17(1): 69–88.PirbhulalS.ZhangH.AlahiM. E. E.GhayvatH.MukhopadhyayS. C.ZhangY. -T. and WuW.2017A novel secure IoT-based smart home automation system using a wireless sensor networkSensors17(1)69–88Search in Google Scholar
Prando, L. R., de Lima, E. R., de Moraes, L. S., Biehl Hamerschmidt, M. and Fraindenraich, G. 2019. Experimental performance comparison of emerging low power wide area networking (LPWAN) technologies for IoT. 2019 IEEE 5th World Forum on Internet of Things (WF-IoT), Limerick, 905–908.PrandoL. R.de LimaE. R.de MoraesL. S.Biehl HamerschmidtM. and FraindenraichG.2019Experimental performance comparison of emerging low power wide area networking (LPWAN) technologies for IoT2019 IEEE 5th World Forum on Internet of Things (WF-IoT)Limerick905–908Search in Google Scholar
Ruckebusch, P., Giannoulis, S., Moerman, I., Hoebeke, J. and Poorter, E. D. 2018. Modelling the energy consumption for over-the-air software updates in LPWAN networks: SigFox, LoRa and IEEE 802.15.4g. Internet of Things 3-4: 104–119.RuckebuschP.GiannoulisS.MoermanI.HoebekeJ. and PoorterE. D.2018Modelling the energy consumption for over-the-air software updates in LPWAN networks: SigFox, LoRa and IEEE 802.15.4gInternet of Things3-4104–119Search in Google Scholar
Santos, D. and Ferreira, J. C. 2019. IoT power monitoring system for smart environments. Sustainability 11(19): 5355–5379.SantosD. and FerreiraJ. C.2019IoT power monitoring system for smart environmentsSustainability11(19):5355–5379Search in Google Scholar
Shahjalal, M., Hasan, M. K., Islam, M. M., Alam, M. M., Ahmed, M. F. and Jang, Y. M. 2020. An overview of AI-enabled remote smart-home monitoring system using LoRa. 2020 International Conference on Artificial Intelligence in Information and Communication (ICAIIC), Fukuoka, 510–513.ShahjalalM.HasanM. K.IslamM. M.AlamM. M.AhmedM. F. and JangY. M.2020An overview of AI-enabled remote smart-home monitoring system using LoRa2020 International Conference on Artificial Intelligence in Information and Communication (ICAIIC)Fukuoka510–513Search in Google Scholar
Singaravelan, A. and Kowsalya, M. 2016. Design and implementation of standby power saving smart socket with wireless sensor network. Procedia Computer Science 92: 305–310.SingaravelanA. and KowsalyaM.2016Design and implementation of standby power saving smart socket with wireless sensor networkProcedia Computer Science92305–310Search in Google Scholar
Spachos, P. 2020. Towards a low-cost precision viticulture system using Internet of Things devices. IoT 1(1): 5–20.SpachosP.2020Towards a low-cost precision viticulture system using Internet of Things devicesIoT1(1):5–20Search in Google Scholar
Visconti, P., Ferri, R., Pucciarelli, M. and Venere, E. 2016. Development and characterization of a solar based energy harvesting and power management system for a WSN node applied to optimized goods transport and storage. International Journal on Smart Sensing & Intelligent Systems, 9(4): 1637–1667.ViscontiP.FerriR.PucciarelliM. and VenereE.2016Development and characterization of a solar based energy harvesting and power management system for a WSN node applied to optimized goods transport and storageInternational Journal on Smart Sensing & Intelligent Systems9(4):1637–1667Search in Google Scholar
Yueshun, H. and Wei, Z. 2013. The research on wireless sensor network for landslide monitoring. International Journal on Smart Sensing & Intelligent Systems 6(3): 867–887.YueshunH. and WeiZ.2013The research on wireless sensor network for landslide monitoringInternational Journal on Smart Sensing & Intelligent Systems6(3):867–887Search in Google Scholar
