SMART CITY INFORMATION SYSTEM BASED ON LORA TECHNOLOGYANNOTATION
DOI:
https://doi.org/10.28925/2663-4023.2022.16.113128Keywords:
LORA, LoRaWAN, Internet of Things technologyAbstract
This article discusses issues related to the concept of the Internet of Things and its application to the development of the Smart City. Smart City or "Smart City" is a new concept for the introduction of technologies (information and communication) to manage the life of the modern city. Existing technologies for long-distance data transmission in the Internet of Things are analyzed. Based on the calculations, the justification of the efficiency of LORA technology is substantiated, the energy potential of the communication line for LORA technology is given, the capacity of the LoRa network is determined. The network architecture has the best relationship between increasing the battery life of IoT devices and providing communication range. The protocol operates in a non-licensed range, and this is its uniqueness in cost and speed of implementation. Based on the study of the experience of implementing the protocol in the city of Lviv, the advantages and problems of implementation were identified. The possibility of using the technology in large cities was assessed. Software has been developed that allows the user to check that everything in his house is in order and that there are no gas leaks, water leaks and no movement in the house. The practical use of IoT in the "Smart City", the use of LoRaWAN technology, the principle of the network are shown. The experience of using the LoRaWAN protocol in Ukraine has been studied and analyzed. The experience of cities on the introduction of Internet of Things technologies in the housing system is considered.
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References
Tanenbaum, E., & Uezeroll, D. (2012). Kompiuterni merezhi (5-te vyd.).
Kirichek, R., & Kulik, V. (2016). Long-Range Data Transmission on Flying Ubiquitous Sensor Networks (FUSN) by Using LPWAN Protocols. U Communications in Computer and Information Science (s. 442–453). Springer International Publishing. https://doi.org/10.1007/978-3-319-51917-3_39.
http://orion-m2m.kz/ru/news/lora-alliance/
http://www.tadviser.ru/index.php/Stattia:Standart_NB-IoT_LowPower_and_Wide-Area,_LPWAN_
Zhurakovskyi, B. Yu. (2021). Tekhnolohii internetu rechei (B. Zhurakovskyi & I. O. Zeniv, Red.). KPI im. Ihoria Sikorskoho. https://ela.kpi.ua/handle/123456789/42078
Poltorak, V. P. (1998). Polynomyalnoe kodyrovanye ynformatsyy v systemakh upravlenyia. U V. P. Poltorak & Yu. P. Zhurakovskyi (Red.) (s. 270–271).
Zhurakovskyi, B.Iu. (2012). Doslidzhennia vykorystannia novykh zavadostiikykh kodiv dlia kanaliv zi styranniam. Visnyk Derzhavnoho universytetu informatsiino-komunikatsiinykh tekhnolohii, 2, 93-96.
https://smartiko.ru/products/radiomodemy-i-gotovye-ustroystva/
https://telecom.kz/ru/news/view/28369
Zhurakovskiy, B., & Tsopa, N. (2019e). Assessment Technique and Selection of Interconnecting Line of Information Networks. U 2019 3rd International Conference on Advanced Information and Communications Technologies (AICT). IEEE. https://doi.org/10.1109/aiact.2019.8847726
https://www.crn.ru/numbers/spec-numbers/detail.php?ID=11794
Semtech.(2022). https://www.semtech.com/
Kabanova, A. B., Bodrova, A. A., Lohvin, V. I. (2016). Doslidzhennia internetu rechei ta yoho zastosuvannia u stvorenni rozumnoho budynku. Symvol nauky, 11.
Cisco.(2022). https://www.britannica.com/topic/Cisco-Systems-Inc
IBM.(2022). https://www.ibm.com/us-en/
Kerlink.(2022). https://www.kerlink.com/
IMST.(2022). http://www.imst.com/
Microchip Technology.(2022). https://www.microchip.com/
Zhurakovskyi, B., Toliupa, S., Otrokh, S., Dudarieva, H., Zhurakovskyi, V. (2021). Coding for information systems security and viability. In CEUR Workshop Proceedings, 2859, 71–84.
Zhurakovskyi, B., Toliupa, S., Druzhynin, V., Bondarchuk, A., & Stepanov, M. (2021b). Calculation of Quality Indicators of the Future Multiservice Network. U Lecture Notes in Electrical Engineering (s. 197–209). Springer International Publishing. https://doi.org/10.1007/978-3-030-92435-5_11
Shevchenko, O., Bondarchuk, A., Polonevych, O., Zhurakovskyi, B., Korshun, N. (2021). Methods of the objects identification and recognition research in the networks with the IoT concept support. In CEUR Workshop Proceedings, 2923, 277–282. http://ceur-ws.org/Vol-2923/
Moshenchenko, M., & Zhurakovskyi, B. (2021a). Information protection in “smart city” technologies. Cybersecurity: Education, Science, Technique, 3(11), 100–109. https://doi.org/10.28925/2663-4023.2021.11.100109.
Moshenchenko, M.S., Zhurakovskyi, B. Yu. (2020). Standarty Smart City. Aktualnыe nauchnыe yssledovanyia v sovremennom myre, 2, 41–44.
Spetsyfikatsiia LoRaWAN. (2016). Vstup. Osnovni poniattia ta klasy kintsevykh prystroiv. https://habr.com/ua/post/316954/
Zhurakovskyi, B. Yu., Parkhomei, I. R., & Druzhynin, V. A. (2018). Obrobka informatsii v sensornykh merezhakh. Adaptyvni systemy avtomatychnoho upravlinnia, 1(32), 42–57. https://doi.org/10.20535/1560-8956.32.2018.145610
Moshenchenko, N., & Zhurakovskyi, B. (2021). SMARTCITY WIRELESS FENCE AND INTERACTIVE INFRASTRUCTURE MODEL. Cybersecurity: Education, Science, Technique, 1(13), 63–80. https://doi.org/10.28925/2663-4023.2021.13.6380
Koucheryavy, A. E. (2013). Internet of Things. Electrosvyaz, 1, 21–24.
Kyrychek, R. V., Paramonov, A. Y., Prokopev, A. V., Kucheriavыi, A. E. (2014). Эvoliutsyia yssledovanyi v oblasty besprovodnыkh sensornыkh setei. Ynformatsyonnыe tekhnolohyy y telekommunykatsyy, 4(8), 29–41. http://www.sut.ru/doci/nauka/review/4-14.pdf
Tekhnolohiia rozumu: Koly Lviv stane SMART CITY 2022 https://tvoemisto.tv/exclusive/tehnologiya_rozumu_koly_lviv_stane_smart_city_74653.html
Zhurakovskyi, B., & Nedashkivskiy, O. (2022b). SYSTEM TO COLLECT INFORMATION WHEN TRANSFERRING DATA TO RADIO CHANNELS. Cybersecurity: Education, Science, Technique, 3(15), 6–34. https://doi.org/10.28925/2663-4023.2022.15.634
Arduino. (2022). https://www.arduino.cc/
Druzhynin, V., Toliupa, S., Pliushch, O., Stepanov, M., & Zhurakovskyi, B. (2020). Features of processing signals from stationary radiation sources in multi-position radio monitoring systems. U Cybersecurity Providing in Information and Telecommunication Systems 2020 (s. 46–65). CEUR Workshop Proceedings. http://ceur-ws.org/Vol-2746/
Pure ALOHA. (2022). https://www.tutorialspoint.com/what-is-pure-aloha-in-computer-networks
SoftwareSerial.h. (2022). https://docs.arduino.cc/learn/built-in-libraries/software-serial
Zhurakovskyi, B.Iu., Varfolomeieva, O.H., Hladkykh, O.V., Khakhliuk, O.A. (2013). Obiektno-oriientovana tekhnolohiia proektuvannia system upravlinnia. Visnyk Derzhavnoho universytetu informatsiino-komunikatsiinykh tekhnolohii, 1, 49-53.
Zhurakovskyi, B.Iu. (2012). Obiektno-oriientovana model systemy upravlinnia merezheiu NGN. Visnyk Derzhavnoho universytetu informatsiino-komunikatsiinykh tekhnolohii, 3, 81-84.