Istrazivanja i projektovanja za privreduJournal of Applied Engineering Science


DOI: 10.5937/jaes0-26722 
This is an open access article distributed under the CC BY 4.0
Creative Commons License

Milos Djordjevic*
University of Nis, Faculty of Electronic Engineering, Department of Microelectronics, Nis, Serbia

Vesna Paunovic
University of Nis, Faculty of Electronic Engineering, Department of Microelectronics, Nis, Serbia

Danijel Dankovic
University of Nis, Faculty of Electronic Engineering, Department of Microelectronics, Nis, Serbia

Branislav Jovicic
University of Nis, Faculty of Electronic Engineering, Department of Microelectronics, Nis, Serbia

With a special focus on the now widespread Internet of Things (IoT) technology, it offers a convenient solution for smart agriculture. This paper will introduce a smart greenhouse monitoring and control data logger system as part of a smart farm. The system is based on: a group of built-in sensors, a microcontroller with a peripheral interface (PIC) as a core and a server system and a wireless Internet using the Global System of Mobile Telecommunications (GSM) module with General Packet Radio Service (GPRS) as a communication protocol. It is possible to implement a smart agricultural service, in which the realized smart data logger system could be implemented, which enables automatic control of the greenhouse at the farm.

View article

This work has been supported by the Ministry of Education, Science and Technological Development of the Republic of Serbia under grants: "Characterization, analysis, and modeling of physical phenomena in thin layers for application in MOS nanocomponents" (grant no. OI-171026) , "Design, Optimization and Application of Energy Harvesting Sensor Technologies" (grant no. TR-32026), „Development, realization, optimization and monitoring of network modular rotating photovoltaic system with power 5kW“ (grant no. TR-33035), and „Directed synthesis, structure and properties of multifunctional materials“ (grant no. OI-172057). Also, thank to the holder of the agricultural holding/farm Barbara Djordjevic, on expert advice and suggestions related to the Greenhouses.

1. Djordjevic, M., Jovicic, B., Milosavljevic, B., (2017). Meteorological Station – Data Logger, In Proceedings of the IEEESTEC-10th Student Projects Conference, Nis, Serbia, 2017, pp. 35-38. (On Serbian)

2. Djordjevic, M., Dankovic, D., (2019). A Smart Weather Station Based on Sensor Technology, FACTA UNIVERSITATIS, Series: Electronics and Energetics, vol. 32, vo. 2, 195-210, June 2019. DOI.ORG: 10.2298/FUEE1902195D

3. Djordjevic, M., Jovicic, B., Milosavljevic, B., Paunovic, V., Dankovic, D., (2018). Smart House System Based on GSM Mobile and IoT Technology, In Proceedings of the IEEESTEC-11th Student Projects Conference, Nis, Serbia, 2018, pp. 29-34. (On Serbian)

4. Devendra, R., B., Pravin, F., R., Yashpal, G., Warsha, K., (2016). Greenhouse Monitoring Using IOT Technology, International Research Journal of Engineering and Technology (IRJET), vol 3, no. 10, 810- 815, October 2016.

5. Nurzaman, A., Debashis, D., Iftekhar H., (2018). Internet of Things (IoT) for Smart Precision Agricultural and Farming in Rural Areas, IEEE INTERNET OF THINGS JOURNAL, vol 5, no. 6, 4890 – 4899, December 2018., DOI: 10.1109/JIOT.2018.2879579

6. Archbold, G., Beltran, A., Ruiz, F., Narducci, M., Mendez, D., Trujillo, L., Parra, C., Carrillo, H., Mouazen, (2019). A., pH Measurement IoT System for Precision Agriculture Applications, IEEE LATIN AMERICA TRANSACTIONS, vol. 17, no. 5, 823-832, May 2019.

7. Gonzalez-Amarillo, C., Carlos Corrales Munoz, J., Mendoza-Moreno, M., María Gonzalez Amarillo, A., Faeq Hussein, A., Arunkumar, N., Ramirez-Gonzalez, G., (2018)., A Traceability System to Crop of Seedlings in Greenhouse, Based IoT, IEEE Access, vol. 6, 67528-67535, October 2018. DOI: 10.1109/ ACCESS.2018.2877293

8. Chawla, S., Kapoor, A., Sharma, S., Shukla, B., Gupta, M., Kaushik, P., Pushkar, S., (2016). App based Garden Bot for Rgulation of Water Level in plants, International Research Journal of Engineering and Technology (IRJET), vol 3, no. 10, 1208-1212, October 2016.

9. Salleh, A., K. Ismail, M., R.Mohamad, N., Z. A Abd Aziz, M., A. Othman, M., H. Misran, M., (2013)., Development of Greenhouse Monitoring using Wireless Sensor Network through ZigBee Technology, International Journal of Engineering Science Inventionm vol. 2, no. 7, 6_12, July 2013.

10. Prijic, A., Prijic, Z., Vuckovic, D., and Stanimirovic, A., (2010). AADL Modeling of M2M Terminal, In Proceedings of the Microelectronics Conference (MIEL 2010), Nis, Serbia, 16-19 May 2010, pp. 373-376.

11. Water Reservoir Picture, 3D model: http://misbell. net/hemizacija-fertilizacija.html [On-Line], Accessed: 19.04.2020.

12. Greenhouse Picture, 3D model: https://www.cgtrader. com/3d-models/architectural/other/greenhouse- 4507f508-7bb2-4ca7-9cb6-cb65459f139b, [On-Line], Accessed: 19.04.2020.

13. Microcontroller PIC18F45K22, Microchip: http://www., [On-Line], Data Sheet. Accessed: 20.04.2020.

14. GSM Sim800l, Simcom: SIM800/SIM800_Hardware%20Design_V1.08.pdf, [On-Line], Data Sheet. Accessed: 20.04.2020.

15. BME280 sensor – BOSCH Sensortec: https:// DS001-10.pdf, [On-Line], Data Sheet, Accessed: 20.04.2020.

16. BH1750FVI: Sensor Sensor ICS – Mouser Electronics: datadatas/ic/sensor/light/bh1721fvc-e.pdf, [On-Line], Data Sheet, Accessed: 20.04.2020.

17. MQ-7 Sensor, Sparkfun: datasheets/Sensors/Biometric/MQ-7.pdf, [On-Line], Data Sheet, Accessed: 20.04.2020.

18. SEN0161 pH sensor, DFROBOT: https://media. P D F s / S E N 0 1 6 1 _ S E N 0 1 6 9 _ W e b . p d f , [On-Line], Data Sheet, Accessed: 20.04.2020.

19. SEN0193 Soil Moisture sensor: https://media. PDFs/SEN0193_Web.pdf, [On-Line], Data Sheet, Accessed: 20.04.2020.

20. Anemometer, Wind speed sensor, Adafruit: https://, [On-Line], Data Sheet, Accessed: 20.04.2020.

21. HC-SR04 Ultrasonic sensor, Sparkfun: https:// HCSR04.pdf, [On-Line], Data Sheet, Accessed: 20.04.2020.

22. DS18B20 Dallas Temperature sensor, Dallas: file=%2Fz%2FDatasheet%2F1%2F1420644897. pdf, [On-Line], Data Sheet, Accessed: 20.04.2020.

23. Carbon dioxide enrichment-gassing, Plastenici: gasovanje/, [On-Line], Article, Accessed: 21.04.2020.

24. DS1307 Real Time Clock (RTC) module– Part Number Search – Maxim Integrated: https://datasheets., [On-Line], Data Sheet, Accessed: 21.04.2020