Vol.12, No.4, November 2023.                                                                                                                                                                               ISSN: 2217-8309

                                                                                                                                                                                                                        eISSN: 2217-8333


TEM Journal



Association for Information Communication Technology Education and Science

A Model of a Smart Garden Using the Integration of a Set of Components


Iva Kostadinova, Vasil Totev


© 2023 Iva Kostadinova, published by UIKTEN. This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License. (CC BY-NC-ND 4.0)


Citation Information: TEM Journal. Volume 12, Issue 4, Pages 1966-1972, ISSN 2217-8309, DOI: 10.18421/TEM124-06, November 2023.


Received: 09 June 2023.

Revised:   11 September 2023.
Accepted: 22 September 2023.
Published: 27 November 2023.




The purpose of this paper is to describe an experiment in the design and construction of an intelligent irrigation system based on the integration of ready-made programmed components and programmable ones, which, if necessary, will provide watering of plantations. This paper presents a model of an integrated multi-component architecture for a smart garden, which is based on the combination of various components and techniques in small-scale urban garden irrigation by using Internet of Things (IoT) technologies. Automation is related to planning based on sensor data processing, determining when to activate water supply. Unlike manufacturers who offer "smart irrigation" solutions with all the automated components needed to build a complete intelligent system, our approach is different. We combine components from various manufacturers to create an independent irrigation system. The challenge lies in ensuring these components can seamlessly work together, processing automation instructions through external software, and storing data on a remote server. The described model represents an innovative solution that enhances the functionality and sustainability of urban gardens by combining an understanding of the gardens' needs and effective resource management, contributing to an improved quality of life for citizens and the sustainable use of natural resources.


Keywords –IoT, sensors, model, smart irrigation, integrate.



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