Smart City Gnosys

Smart city article details

Title	Evaluation Of Low-Power Wireless Communication Technology In Underground Environments For Smart Cities Applications
ID_Doc	24813
Authors	Villarim A.W.R.; Souto C.R.; Santos A.J.V.; Villarim M.R.
Year	2022
Published	APWiMob 2022 - Proceedings: 2022 IEEE Asia Pacific Conference on Wireless and Mobile
DOI	http://dx.doi.org/10.1109/APWiMob56856.2022.10014189
Abstract	This paper presents a study of LoRa communication technology performance on underground environments. The communication parameters evaluated between transmitter and receiver considered the depth of the device, the distance between them and the environment where the tests were performed (dense urban, forest and with direct line of sight environments). It was found that the transmission loses data packets when increasing the depth of the device, being also influenced by other factors, like the transmission environment. In addition, it also presents a contribution regarding the transmission of underground signals with no need of communication cables for monitoring parameters of interest, such as leakages tracking in water distribution systems for smart cities applications. © 2022 IEEE.
Author Keywords	LoRa technology; Smart Cities; Underground communication; Wireless Sensor Networks

Similar Articles

Id	Similarity	Authors	Title	Published
4970	0.897	Anzum R.; Habaebi M.H.; Islam M.R.; Hakim G.P.N.	A Study Of Lora Signal Propagation In Hilly Suburban Area For Smart City Applications	2021 IEEE 7th International Conference on Smart Instrumentation, Measurement and Applications, ICSIMA 2021 (2021)
13457	0.883	Zakaria S.M.M.S.; Zakaria A.; Kamarudin L.M.; Visvanathan R.; Rahim Y.A.; Azmi N.; Elham M.F.	Case Study Of Lorawan-Based Smart Elements In Urban Environment	AIP Conference Proceedings, 2898, 1 (2024)
13817	0.874	Frazão D.; Silva E.	Characterization Of The Behavior Of Lora Networks In A Fluvial Environment In The Rio Negro	Smart Innovation, Systems and Technologies, 207 SIST (2023)
59872	0.873	Jörke, P; Böcker, S; Liedmann, F; Wietfeld, C	Urban Channel Models For Smart City Iot-Networks Based On Empirical Measurements Of Lora-Links At 433 And 868 Mhz	2017 IEEE 28TH ANNUAL INTERNATIONAL SYMPOSIUM ON PERSONAL, INDOOR, AND MOBILE RADIO COMMUNICATIONS (PIMRC) (2017)
24592	0.873	Ju H.; Jang H.; Eum J.; Kang M.; Yim S.; Lopez X.; Smith A.	Evaluating Lpwan Technologies: Performance Of Lorawan And 802.11Ah For Smart City	Proceedings - 2024 8th IEEE International Conference on Robotic Computing, IRC 2024 (2024)
24812	0.87	Sagir S.; Kaya I.; Sisman C.; Baltaci Y.; Unal S.	Evaluation Of Low-Power Long Distance Radio Communication In Urban Areas: Lora And Impact Of Spreading Factor	Proceedings - 2019 7th International Conference on Digital Information Processing and Communications, ICDIPC 2019 (2019)
2518	0.868	Rahman R.; Lin C.-H.; Hsu C.-H.; Venkatasubramanian N.	A Measurement-Informed Approach To Modeling Underground Iot Communications	IEEE Vehicular Technology Conference (2024)
34756	0.866	Batalha 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 Environments	IEEE Internet of Things Journal, 9, 23 (2022)
41436	0.863	Rademacher M.; Linka H.; Horstmann T.; Henze M.	Path Loss In Urban Lora Networks: A Large-Scale Measurement Study	IEEE Vehicular Technology Conference, 2021-September (2021)
35637	0.861	Ramesh R.; Arunachalam M.; Atluri H.K.; Kumar S C.; Anand S.V.R.; Arumugam P.; Amrutur B.	Lorawan For Smart Cities: Experimental Study In A Campus Deployment	LPWAN Technologies for IoT and M2M Applications (2020)