International Journal of Computer
& Organization Trends

Research Article | Open Access | Download PDF

Volume 11 | Issue 2 | Year 2021 | Article Id. IJCOT-V11I2P305 | DOI : https://doi.org/10.14445/22492593/IJCOT-V11I2P305

A Multi-Purpose Agriculture System Based On IOT

P.Ramya, S.Saranya, R.Vaiyammal, S.Varsha, G.Sathya

Received Revised Accepted
27 Feb 2021 11 Apr 2021 17 Apr 2021

Citation :

P.Ramya, S.Saranya, R.Vaiyammal, S.Varsha, G.Sathya, "A Multi-Purpose Agriculture System Based On IOT," International Journal of Computer & Organization Trends (IJCOT), vol. 11, no. 2, pp. 14-15, 2021. Crossref, https://doi.org/10.14445/22492593/IJCOT-V11I2P305

Abstract

In this paper, it is to perform activities like programmed watering, animal checking, and pesticide showering. It likewise gives manual control when required and monitors the stickiness with the moistness sensors. The Arduino controller is used for controlling which the robot works the whole field and continues to furrowing, and also apportioning seeds one next to another simultaneously. The gadget utilized for the route is a vibration sensor that constantly sent data to the controller. So that the system is automatic and outside is manual. An Internet of Thighs (IOT) is used to control utilized for the whole process. The water sprinklers, if on, cut down the stickiness level, subsequently giving an ideal developing climate to edit.

Keywords

Agricultur System, IOT

References

[1] Krongthong, T., & Muangmeesri, B., Modeling, and Simulink of Smart Agriculture Using IoT Framework. In 1st International Conference on Cybernetics and Intelligent System (ICORIS), IEEE, 1 (2019) 185-188.
[2] AshifuddinMondal, M., & Rehena, Z., Iot based intelligent agriculture field monitoring system. In 8th International Conference on Cloud Computing, Data Science & Engineering (Confluence), IEEE, (2018) 625-629
[3] Khattab, A., Abdelgawad, A., & Yelmarthi, K., Design, and implementation of a cloud-based IoT scheme for precision agriculture. In 2016 28th International Conference on Microelectronics (ICM), IEEE. (2016) 201-204.
[4] Heble, S., Kumar, A., Prasad, K. V. D., Samirana, S., Rajalakshmi, P., & Desai, U. B. A low-power IoT network for smart agriculture. In 2018 IEEE 4th World Forum on Internet of Things (WF-IoT), IEEE, (2018) 609-614
[5] Puranik, V., Ranjan, A., & Kumari, A., Automation in agriculture and iot. In 2019 4th International Conference on Internet of Things: Smart Innovation and Usages (IoT-SIU), IEEE, (2019) 1-6.
[6] Dholu, M., & Ghodinde, K. A., Internet of things (iot) for precision agriculture application. In 2018 2nd International conference on trends in electronics and informatics (ICOEI), IEEE, (2018) 339-342.
[7] Nagaraja, G. S., Soppimath, A. B., Soumya, T., & Abhinith, A., Iot based smart agriculture management system. In 2019 4th International Conference on Computational Systems and Information Technology for Sustainable Solution (CSITSS), IEEE, 4(2019)1-5.