Rancang Bangun Alat Siram Bibit Kopi Berbasis IoT Menggunakan Mikrokontroler
Keywords:
Automatic irrigation, NodeMCU ESP8266, Robusta coffee seedlings, soil moisture dataAbstract
The advancing modern world leads society to believe that there will always be tools or technologies to aid them in their work. Technology has become essential for the general public. At this point, this research is designed to develop a tool that can automatically irrigate Robusta coffee seedlings. The primary purpose of this tool is to automate manual tasks that typically require significant time and effort. One significant benefit of this tool is the increased efficiency in the irrigation process of Robusta coffee seedlings. This device is equipped with a water level sensor that detects the water level and sends the data to the NodeMCU ESP8266, which then automatically activates the water pump based on the water requirements. The final task of this research involves the design, construction, and implementation of system components such as the controller, power supply to run the water pump, and an LCD to display soil moisture data.
References
[1] R. R. Sari, A. Marliah, and A. I. Hereri, “Pengaruh komposisi media tanam dan dosis NPK terhadap pertumbuhan bibit kopi robusta (Coffea chanephora L.),” J. Agrium, vol. 16, no. 1, pp. 28–37, 2019.
[2] M. Y. Efendi, “Implementasi Internet of Things Pada Sistem Kendali Lampu Rumah Menggunakan Telegram Messenger Bot Dan Nodemcu Esp 8266,” 2019, Prodi Teknik Informatika.
[3] D. Rahmawati, F. Herawati, G. Saputra, and Hendro, “Karakterisasi Sensor Kelembaban Tanah (YL-69) Untuk Otomatisasi Penyiraman Tanaman Berbasis Arduino Uno,” Pros. SKF 2017, pp. 92–97, 2017.
[4] B. A. B. Ii and D. Teori, “Bab ii,” no. 1, pp. 1–10.
[5] M. Saleh and M. Haryanti, “Rancang Bangun Sistem Keamanan Rumah Menggunakan Relay,” J. Teknol. Elektro, Univ. Mercu Buana, vol. 8, no. 2, pp. 87–94, 2017.
[6] Ley 25.632, “済無No Title No Title No Title,” pp. 5–20, 2002.
[7] Sugiarto, “済無No Title No Title No Title,” vol. 4, no. 1, pp. 1–23, 2016.
[8] S. Dwiyatno, E. Krisnaningsih, D. Ryan Hidayat, and Sulistiyono, “S Smart Agriculture Monitoring Penyiraman Tanaman Berbasis Internet of Things,” PROSISKO J. Pengemb. Ris. dan Obs. Sist. Komput., vol. 9, no. 1, pp. 38–43, 2022, doi: 10.30656/prosisko.v9i1.4669.
[9] N. Hardi, R. Afuw Rouf Subyan, and A. Arbasyah, “Alat Berbasis IOT Smarthome Monitoring dan Kontrol via Telegram Menggunakan Nodemcu,” Insantek, vol. 4, no. 1, pp. 7–11, 2023, doi: 10.31294/instk.v4i1.2018.
[10] B. T. Rajagukguk, “Tugas Akhir,” 175.45.187.195, vol. 1, p. 31124, 2010.
[11] 2022 by Johanna July 29, “Pengertian Power Supply, Cara Kerja, Fungsi, dan Jenis-Jenisnya,” Dewaweb. All Rights Reserved.
[12] Y. B. PRASETYA, “Rancang Bangun Sistem Pendeteksi Kekeruhan Air Dengan Penyaringan Air Dalam Tandon Menggunakan Internet Of Things (IoT) Berbasis Wemos D1 Mini Via Android,” 2022, UNIVERSITAS ISLAM NEGERI SULTAN SYARIF KASIM RIAU.
[13] Haerul, M. Nurjaya, Hadija, and Azisah, “Kajian Kondisi Eksisting Budidaya Kopi Robusta di Desa BentengeKabupaten Maros,” Tarjih Agric. Syst. J., vol. 2, no. 2, pp. 129–134, 2022, [Online]. Available: https://jurnal-umsi.ac.id/index.php/agriculture
[14] L. K. Br Sembiring, R. Sipayung, and Irsal, “Tanggap Pertumbuhan Bibit Kopi Robusta (Coffea Robusta L.) Terhadap Berbagai Media Tanam Dan Frekuensi Penyiraman,” J. Pertan. Trop., vol. 5, no. 1, pp. 158–169, 1970, doi: 10.32734/jpt.v5i1.3150.
[15] N. Hayati and Setiono, “Artikel Diterima 10 September 2020, disetujui 25 Oktober 2021,” vol. 0, no. 2015, pp. 44–54, 2021.
[16] W. D. Meilianto, W. Indrasari, and E. Budi, “Karakterisasi Sensor Suhu Dan Kelembaban Tanah Untuk Aplikasi Sistem Pengukuran Kualitas Tanah,” Pros. Semin. Nas. Fis. SNF2022, vol. X, pp. 117–122, 2022.
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