DOI: https://doi.org/10.32515/2664-262X.2023.7(38).2.12-18
Application of Raspberry Pi microcontroller for management and monitoring of IoT Systems
About the Authors
Roman Minailenko, Associate Professor, PhD in Technics (Candidate of Technics Sciences), Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, e-mail: aron70@ukr.net, ORCID ID: 0000-0002-3783-0476
Olexandp Dreev, Associate Professor, PhD in Technics (Candidate of Technics Sciences), Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, e-mail: drieievom@kntu.kr.ua, ORCID ID: 0000-0001-6951-2002
Oksana Konoplitcka-Slobodenyk, Lecturer, Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, ORCID ID: 0000-0001-9981-5194
Vitalij Reznichenko, Lecturer, Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, ORCID ID: 00000-0001-6734-6485
Abstract
The article considers the issue of using the Rasberry Pi microcontroller to manage and monitor IoT elements. It is shown that currently there is a sufficiently large number of objects on the market that can be automated and many companies that offer different options to meet the needs of the client. There is also a worldwide demand for automation and remote control of various objects.
Moreover, the need for automation can arise not only at enterprises with multi-thousand budgets, but also at ordinary consumers who need to be offered alternative developments that would be much cheaper and easier to operate. After a while, IoT-based technologies will be widely used in almost all production enterprises. The creation of control and monitoring systems for Internet of Things elements is a topical issue, as a large number of devices capable of exchanging data without human intervention are appearing, both in everyday life and in industry.
Therefore, the purpose of this article is to research means for building IoT and to determine methods of managing and monitoring IoT elements using the example of using a Rasberry Pi microcontroller
The article analyzes the components of the IoT system and proposes a monitoring and control system for its components based on the Raspberry Pi microcontroller. Such a system can monitor the state of the sensors via the Internet, when information updates on the web server are read according to the developed algorithm provided in the Raspberry Pi, and then the system responds to certain instructions with a high degree of information protection. The user can directly log in and interact with the embedded device in real time.
Using the Pasbperry Pi microcontroller allows you to provide all the requirements for building a control and monitoring system for IoT elements and is an affordable technical solution that can be used in almost all industries and home use.
The proposed system is energy efficient, intelligent, low cost, portable and high performance.
Keywords
internet of things, microcontroller, network, control system
Full Text:
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References
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Citations
- Iot based monitoring and control system for appliances . 2018. URL : https://www.ripublication.com/acst18/acstv11n1_04.pdf (дата звереннея: 29.04.2023).
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Copyright (c) 2023 Roman Minailenko, Olexandp Dreev, Oksana Konoplitcka-Slobodenyk, Vitalij Reznichenko
Application of Raspberry Pi microcontroller for management and monitoring of IoT Systems
About the Authors
Roman Minailenko, Associate Professor, PhD in Technics (Candidate of Technics Sciences), Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, e-mail: aron70@ukr.net, ORCID ID: 0000-0002-3783-0476
Olexandp Dreev, Associate Professor, PhD in Technics (Candidate of Technics Sciences), Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, e-mail: drieievom@kntu.kr.ua, ORCID ID: 0000-0001-6951-2002
Oksana Konoplitcka-Slobodenyk, Lecturer, Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, ORCID ID: 0000-0001-9981-5194
Vitalij Reznichenko, Lecturer, Central Ukraіnian National Technical University, Kropyvnytskyi, Ukraine, ORCID ID: 00000-0001-6734-6485
Abstract
Keywords
Full Text:
PDFReferences
1. Iot based monitoring and control system for appliances. (2018). ripublication.com. Retrieved from https://www.ripublication.com/acst18/acstv11n1_04.pdf [in English].
2. Mokin, V.B., Sobko, B.Yu., Dratovany, M.V. et al. (2017). Stvorennia informatsijnoi systemy monitorynhu zabrudnennia atmosfernoho povitria mista na osnovi tekhnolohii «internet rechej» [Creation of an information system for monitoring atmospheric air pollution in the city based on the Internet of Things technology]. Visnyk Vinnyts'koho natsional'noho tekhnichnoho universytetu – Bulletin of the Vinnytsia National Technical University, 3, 49–57 [in Ukrainian].
3. What is IoT architecture? (2020). avsystem.com . Retrieved from https://www.avsystem.com/blog/what-is-iot-architecture/ [in English].
4. Remote monitoring and alerting for iot . (2020). cloud.google.com. Retrieved from https://cloud.google.com/solutions/remote-monitoring-and- alerting-for-iot [in English].
5. Bmp180 barometric pressure/temperature/altitude sensor- 5v ready . Retrieved from https://www.adafruit.com/product/1603 [in English].
6. Wifi adapter edup ep-n8531 . china-electronics.com.ua . Retrieved from http://china-electronics.com.ua/ru/edup/680-wifi-edup-ep-n8531.html [in English].
7. The official raspberry pi how to use your new computer beginner’s guide. raspberrypi.org. Retrieved from https://www.raspberrypi.org/magpi-issues/beginners_guide_v1.pdf [in English].
8. System domoticz . domoticzfaq.ru. Retrieved from https://domoticzfaq.ru/о-системе-domoticz/ [in Ukrainian].
9. Domoticz api/json url's. (2020). domoticz.com. Retrieved from https://www.domoticz.com/wiki/ domoticz_api/json_url% [in English].
10. Ho, S. & Harrop, R. (2012). Pro spring 3 . United Kingdom: apress [in English].
11. Bloch, J. (2018). Effective java third edition. Retrieved from https://kea.nu/files/textbooks/new/effective%20java%20%282017%2c%20addison-wesley%29.pdf [in English].
12. Budai, A. (2012). Dyzajn-paterny – prosto, iak dveri [Design patterns — simple as doors] . Retrieved from https://learn.ztu.edu.ua/pluginfile.php/632/mod_resource/content/1/designpatterns_andriy buday.pdf [in Ukrainian].
Citations
- Iot based monitoring and control system for appliances . 2018. URL : https://www.ripublication.com/acst18/acstv11n1_04.pdf (дата звереннея: 29.04.2023).
- Створення інформаційної системи моніторингу забруднення атмосферного повітря міста на основі технології «інтернет речей» / В. Б. Мокін та ін. Вісник Вінницького національного технічного університету. 2017. №3. С. 49–57.
- What is iot architecture? Avsystem: website. 2020. URL : https://www.avsystem.com/blog/what-is-iot-architecture/ (дата звереннея: 29.04.2023).
- Remote monitoring and alerting for iot. 2020. URL : https://cloud.google.com/solutions/remote-monitoring-and- alerting-for-iot (дата звереннея: 29.04.2023).
- Bmp180 barometric pressure/temperature/altitude sensor- 5v ready . Adafruit: website. URL : https://www.adafruit.com/product/1603 (дата звереннея: 30.04.2023).
- Wifi адаптер edup ep-n8531. China electronics: website. URL : http://china-electronics.com.ua/ru/edup/680-wifi-edup-ep-n8531.html (дата звереннея: 30.04.2023).
- The official raspberry pi how to use your new computer beginner’s guide. The Magpi magazine: website. URL : https://www.raspberrypi.org/magpi- issues/beginners_guide_v1.pdf (дата звереннея: 30.04.2023).
- Система domoticz . Domoticzfaq : website. URL : https://domoticzfaq.ru/о-системе-domoticz/ (дата звереннея: 02.05.2023).
- Domoticz api/json url's. Domoticz: website. 2020. URL : https://www.domoticz.com/wiki/domoticz_api/json_url%27s. (дата звереннея: 02.05.2023).
- Ho С. Pro spring 3 / c. Ho, R. Harrop. united kingdom: apress, 2012. 944 с.
- Bloch J. Effective java third edition. 2018. URL : https://kea.nu/files/textbooks/new/ effective%20java%20%282017%2c%20addison- wesley%29.pdf (дата звереннея: 07.05.2023).
- Будай А. Дизайн-патерни – просто, як двері. 2012. URL : https://learn.ztu.edu.ua/pluginfile.php/632/ mod_resource/content/1/designpatterns_andriy buday.pdf (дата звереннея: 07.05.2023).