Perancangan Alat Penyiram Tanaman Otomatis Dengan Parameter Kelembaban Dan Suhu Berbasis Mikrokontroler Arduino

Haedar Ibad Bagaskara; Dendy Kurniawan; Edy Siswanto; Ahmad Ashifuddin Aqham; Bagus Sudirman

doi:10.55606/teknik.v5i3.8686

Perancangan Alat Penyiram Tanaman Otomatis Dengan Parameter Kelembaban Dan Suhu Berbasis Mikrokontroler Arduino

Authors

Haedar Ibad Bagaskara Universitas Sains Dan Teknologi Komputer
Dendy Kurniawan Universitas Sains Dan Teknologi Komputer
Edy Siswanto Universitas Sains Dan Teknologi Komputer
Ahmad Ashifuddin Aqham Universitas Sains Dan Teknologi Komputer
Bagus Sudirman Universitas Sains Dan Teknologi Komputer

DOI:

https://doi.org/10.55606/teknik.v5i3.8686

Keywords:

Arduino, Internet of Things (IoT), automatic watering, soil moisture

Abstract

The rapid advancement of technology today has brought significant convenience across various aspects of life, including the agricultural sector. One of the common problems still faced by farmers is the manual process of watering and fertilizing plants. This method is often inefficient due to time and labor constraints, and it carries the risk of plants receiving too little or too much water. To address this issue, this research designs an automatic plant watering system based on an Arduino microcontroller that operates autonomously according to soil moisture levels and environmental temperature. The system is equipped with a soil moisture sensor, a temperature and humidity sensor (DHT22), a soil pH sensor, and a Real Time Clock (RTC) module to schedule automatic fertilization. All components are controlled by Arduino and NodeMCU ESP8266, which are connected to the Internet of Things (IoT) network, allowing real-time monitoring of plant conditions through an Android application. The design results show that this device can water and fertilize plants accurately and efficiently without direct supervision. With this system, garden owners can easily manage and maintain their plants remotely while ensuring the balance of water and nutrient needs. This research is expected to serve as an initial step toward implementing smart technology in agriculture, particularly at Taman Buah Sidomakmur, Kendal.

References

Adi, I., dkk. (2022). Permainan tematik dalam pembelajaran pendidikan jasmani, olahraga, dan kesehatan. Jurnal Pedagogi dan Pembelajaran, 5, 189–196. https://doi.org/10.23887/jp2.v5i2.46564

Aditya, L., dkk. (2021). Lemari pengering pakaian menggunakan heater berbasis Arduino Mega 2560. Jurnal Elektro, 9(2), 72–81. https://jurnalteknik.unkris.ac.id/index.php/jie/article/view/127/124

Alfariski, M., dkk. (2022). Automatic transfer switch (ATS) using Arduino Uno, IoT-based relay and monitoring. JTECS: Jurnal Sistem Telekomunikasi Elektronika Sistem Kontrol Power Sistem dan Komputer, 2(1), 1–8. https://doi.org/10.32503/jtecs.v2i1.2238

Ardiyansyah, R., dkk. (2022). Perancangan sistem pendeteksi pH air hujan berbasis IoT (Studi Kasus: Desa Gedepangrango, Kabupaten Sukabumi). Jurnal Teknik Informatika (JUTEKIN), 10(1), 35–44.

Arfiansyah, J., dkk. (2023). Prototype penyiraman tanaman dan kanopi otomatis pada greenhouse dengan sensor kelembapan tanah dan sensor hujan menggunakan Arduino. Jurnal Ticom, 11(2), 98–102.

Daniel, R., dkk. (2022). Rancangan bangun alat monitoring kelembaban, pH tanah dan pompa otomatis pada tanaman tomat dan cabai. LEDGER: Journal Informatic and Information Technology, 1(4), 161–170. https://journal.ittelkom-pwt.ac.id/index.php/ledger/article/view/862/294

Devinta, S., dkk. (2022). Prototype monitoring dan kontrol alat penyiraman tanaman kangkung menggunakan Arduino berbasis website. JATI: Jurnal Mahasiswa Teknik Informatika, 6(1), 229–236.

Effendi, N., dkk. (2022). Perancangan sistem penyiraman tanaman otomatis menggunakan sensor kelembapan tanah berbasis IoT. Jurnal CoSciTech, 3(2), 91–98.

Fuadi, S., dkk. (2020). Prototype alat penyiram tanaman otomatis dengan sensor kelembaban dan suhu berbasis Arduino. JTEIN: Jurnal Teknik Elektro Indonesia, 1(1), 21–25. http://jtein.ppj.unp.ac.id/index.php/JTEIN/article/view/12/5

Latif, N. (2021). Penyiraman tanaman otomatis menggunakan sensor soil moisture dan sensor suhu. Jurnal Ilmiah Ilmu Komputer, 7(1), 16–20.

Lubis, Z. (2021). Teknologi terbaru perancangan model alat penyiram tanaman dengan pengontrolan otomatis. JET: Journal of Electrical Technology, 6(2), 58–64.

Maharani, A. N., dkk. (2022). Rancang bangun aplikasi pengontrol sistem penyiram tanaman berbasis Arduino dan Android. EMITOR: Jurnal Teknik Elektro, 22(1), 8–16. https://www.researchgate.net/publication/360728997

Mardiana, Y., dkk. (2020). Implementasi dan analisis Arduino dalam rancang bangun alat penyiram tanaman otomatis menggunakan aplikasi Android. Jurnal Pseudocode, 7(2), 151–156.

Mukhayat, N., dkk. (2021). Sistem monitoring pH tanah, intensitas cahaya dan kelembaban pada tanaman cabai (Smart Garden) berbasis IoT. Seminar Nasional Dinamika Informatika, 5(1), 179–184.

Nurrahmi, S., dkk. (2023). Rancang bangun sistem penyiraman otomatis pada greenhouse tanaman anggrek menggunakan sensor DHT22. Jurnal Pendidikan Fisika UIN Alauddin Makassar, 11(1), 33–43.

Ramadhan, I. S., dkk. (2023). Alat penyiram tanaman otomatis berbasis Arduino Uno dan NodeMCU. Jurnal Insantek, 4(1), 12–17.

Rhamadhany, G., dkk. (2023). Rancang bangun prototipe sistem monitoring pemupukan dan penyiraman tanaman otomatis berbasis Internet of Things. Jurnal Ticom, 11(2), 86–92.

Talli, W. I. S. A., dkk. (2023). Rancang bangun sistem monitoring kualitas tanah untuk tanaman cabai berbasis IoT. JATI: Jurnal Mahasiswa Teknik Informatika, 7(4), 2428–2435.

Tembusai, Z., dkk. (2024). Sistem monitoring kualitas tanah tanaman hias berbasis IoT dengan sensor pH. Jurnal Minfo Polgan, 13(2), 2030–2035.

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Published

2025-11-22

How to Cite

Haedar Ibad Bagaskara, Dendy Kurniawan, Edy Siswanto, Ahmad Ashifuddin Aqham, & Bagus Sudirman. (2025). Perancangan Alat Penyiram Tanaman Otomatis Dengan Parameter Kelembaban Dan Suhu Berbasis Mikrokontroler Arduino. Jurnal Teknik Mesin, Elektro Dan Ilmu Komputer, 5(3), 349–362. https://doi.org/10.55606/teknik.v5i3.8686