Smart City Gnosys

Smart city article details

Title Characterization Of The Behavior Of Lora Networks In A Fluvial Environment In The Rio Negro
ID_Doc 13817
Authors Frazão D.; Silva E.
Year 2023
Published Smart Innovation, Systems and Technologies, 207 SIST
DOI http://dx.doi.org/10.1007/978-3-031-04435-9_36
Abstract Few articles study the transmission and analysis of data captured in rivers that cross a city using LoRa radiofrequency. LoRa is a network that was specially developed for the construction and development of Internet of Things services. Among its main features, there are long-range, low power, and wireless data transmission. This work presents a characterization of Lo-Ra networks in a fluvial environment in the Rio Negro (bridge) and a semi-urban environment. Where the transceiver will cross the bridge over the Rio Negro, crossing the other bank and continuing its route in a semi-urban region. The Sect. 1 is an introduction, then a brief description of the LoRa network is made. In the Sect. 3, the physical layer is addressed. In the following section, a description of the methodology of this article is made and finally, the results obtained and a conclusion were verified. © 2023, The Author(s), under exclusive license to Springer Nature Switzerland AG.
Author Keywords IoT; LoRa; Rio Negro; Smart cities


Similar Articles

Id Similarity Authors Title Published
35561 View0.929Frazào D.; Martins D.; Silva E.Long-Range Network (Lora) Behavior In The Amazon Region In A Fluvial EnvironmentSmart Innovation, Systems and Technologies, 353 SIST (2023)
4970 View0.885Anzum R.; Habaebi M.H.; Islam M.R.; Hakim G.P.N.A Study Of Lora Signal Propagation In Hilly Suburban Area For Smart City Applications2021 IEEE 7th International Conference on Smart Instrumentation, Measurement and Applications, ICSIMA 2021 (2021)
34756 View0.875Batalha I.D.S.; Lopes A.V.R.; Lima W.G.; Barbosa Y.H.S.; De Alcantara Neto M.C.; Barros F.J.B.; Cavalcante G.P.S.Large-Scale Modeling And Analysis Of Uplink And Downlink Channels For Lora Technology In Suburban EnvironmentsIEEE Internet of Things Journal, 9, 23 (2022)
25217 View0.874Paria S.; Choudhury D.R.; Pramanik S.; Misra I.S.Experimental Characterization Of Lora Point-To-Point Communication Link For Real Time Iot Health Data Transmission2024 IEEE Calcutta Conference, CALCON 2024 - Proceedings (2024)
24813 View0.874Villarim A.W.R.; Souto C.R.; Santos A.J.V.; Villarim M.R.Evaluation Of Low-Power Wireless Communication Technology In Underground Environments For Smart Cities ApplicationsAPWiMob 2022 - Proceedings: 2022 IEEE Asia Pacific Conference on Wireless and Mobile (2022)
52991 View0.873Eraso-Misnaza S.; Eraso-Trejo J.G.; Fajardo-Fajardo D.F.; Viteri-Mera C.A.Statistical Characterization Of Path-Loss For 900 Mhz Lora Using A Bike-Share Iot Network7th IEEE World Forum on Internet of Things, WF-IoT 2021 (2021)
41436 View0.87Rademacher M.; Linka H.; Horstmann T.; Henze M.Path Loss In Urban Lora Networks: A Large-Scale Measurement StudyIEEE Vehicular Technology Conference, 2021-September (2021)
43459 View0.869Bezerra N.S.; Ahlund C.; Saguna S.; De Sousa V.A.Propagation Model Evaluation For Lorawan: Planning Tool Versus Real Case ScenarioIEEE 5th World Forum on Internet of Things, WF-IoT 2019 - Conference Proceedings (2019)
59872 View0.867Jörke, P; Böcker, S; Liedmann, F; Wietfeld, CUrban Channel Models For Smart City Iot-Networks Based On Empirical Measurements Of Lora-Links At 433 And 868 Mhz2017 IEEE 28TH ANNUAL INTERNATIONAL SYMPOSIUM ON PERSONAL, INDOOR, AND MOBILE RADIO COMMUNICATIONS (PIMRC) (2017)
9211 View0.865Prauzek M.; Paterova T.; Stankus M.; Mikus M.; Konecny J.Analysis Of Lorawan Transactions For Teg-Powered Environment-Monitoring DevicesElektronika ir Elektrotechnika, 28, 3 (2022)