Application of Arduino Uno in A Hydroponic System in An Automatic Mixing and Nutrition Process
DOI:
https://doi.org/10.55351/prajaiswara.v5i1.123Keywords:
Arduino UNO, Arduino Sensors, Hydroponic Systems, Nutrient Concentration, Plant NutrientAbstract
The conversion of agricultural land into residential areas has implications for the reduction of agricultural productivity, thereby disrupting the food supply among communities. One alternative to increase food supply is hydroponic farming. Hydroponics is worth considering, as it only requires minimal land. However, hydroponic cultivation also has its own challenges. One of them is the concentration of water, nutrient A, and nutrient B that must be considered. The lack of nutrient supply to plants will slow down plant growth, while excessive nutrient application can cause plant stress. To avoid these issues, one way is through the application of Arduino UNO in hydroponic systems, where the sensors on Arduino will measure the dissolved substances in water in parts per million (PPM). With the application of Arduino in hydroponic systems, the concentration of nutrients A and B will be more accurate, and nutrient application can be done automatically.
Metrics
References
Anwar, D. S., Suciyono, N., & Maulana, R. (2018). Sistem pakar diagnosis Hama Dan Penyakit komoditas tanaman Padi Berbasis web. Konferensi Nasional Sistem Informasi (KNSI) 2018, 0(0).
Basit, A., & Budihartono, E. (2023). Robot Panen Hidroponik berbasis human following. Komputika : Jurnal Sistem Komputer, 12(1), 83–91. https://doi.org/10.34010/komputika.v12i1.9028
Buana, Z., Candra, O., & Elfizon, E. (2019). SISTEM PEMANTAUAN TANAMAN SAYUR DENGAN MEDIA TANAM HIDROPONIK MENGGUNAKAN ARDUINO. JTEV (Jurnal Teknik Elektro Dan Vokasional), 5(1.1), 74. https://doi.org/10.24036/jtev.v5i1.10516
Calibra, R. G., Ardiansah, I., & Bafdal, N. (2021). Pengendalian Kualitas Air untuk Tanaman Hidroponik Menggunakan Raspberry Pi dan Arduino Uno. Jurnal Teknik Informatika Dan Sistem Informasi, 7(1). https://doi.org/10.28932/jutisi.v7i1.3421
Devira Ramady, G., Ghea Mahardika, A., Sujana, A., Abduh, M., & Solehudin, M. (2021). Perancangan Model Prototipe Sistem Hidroponik sebagai Media Pembelajaran berbasis Mikrokontroler. Smart Comp: Jurnalnya Orang Pintar Komputer, 10(3), 142–148. https://doi.org/10.30591/smartcomp.v10i3.2923
Hakiki, M. I., Darusalam, U., & Nathasia, N. D. (2020). Konfigurasi Arduino IDE Untuk Monitoring Pendeteksi Suhu dan Kelembapan Pada Ruang Data Center Menggunakan Sensor DHT11. JURNAL MEDIA INFORMATIKA BUDIDARMA, 4(1), 150. https://doi.org/10.30865/mib.v4i1.1876
Haryanto, D., & Kn, N. (2019). Simulator Sistem Pengairan Otomatis Tanaman Hidroponik dengan Arduino. TESLA: Jurnal Teknik Elektro, 20(2), 118. https://doi.org/10.24912/tesla.v20i2.2988
Kamolan, A., & Sampebatu, L. (2021). Rancang Bangun Prototipe Pengaman Ruangan dengan Input Kode PIN dan Multi Sensor Berbasis Mikrokontroller. Jurnal Ampere, 6(1), 22. https://doi.org/10.31851/ampere.v6i1.5980
Karim, S., Khamidah, I. M., & Yulianto. (2021). Sistem Monitoring Pada Tanaman Hidroponik Menggunakan Arduino UNO dan NodeMCU. Buletin Poltanesa, 22(1). https://doi.org/10.51967/tanesa.v22i1.331
Lubis, Z., Saputra, L. A., Winata, H. N., Annisa, S., Muhazzir, A., satria, B., & Wahyuni, M. S. (2019). KONTROL MESIN AIR OTOMATIS BERBASIS ARDUINO DENGAN SMARTPHONE. Buletin Utama Teknik, 14(3), 155–159.
Nur Alfan, A., & Ramadhan, V. (2022). PROTOTYPE DETEKTOR GAS DAN MONITORING SUHU BERBASIS ARDUINO UNO. PROSISKO: Jurnal Pengembangan Riset Dan Observasi Sistem Komputer, 9(2), 61–69. https://doi.org/10.30656/prosisko.v9i2.5380
Nurkodri, M. S., Amir, A., & Zamzami, Z. (2023). Analisis pengaruh dana perimbangan dan investasi terhadap pertumbuhan ekonomi di Kabupaten/Kota dalam Provinsi Jambi. e-Jurnal Ekonomi Sumberdaya dan Lingkungan, 12(1), 29-38.
Nurkodri, M. S., Pasla, B. N. P., & Laryan, P. (2023). Analysis of the Contribution of Balance Funds to Total Government Revenues in Regency/Municipality in Jambi Province. Jurnal Prajaiswara, 4(1).
Nurkodri, M. S., Malau, A. R., & Amalia, F. (2023). Analysis of the Effect of Balance Funds on Economic Growth in Regency/Municipality in Jambi Province. Jurnal Prajaiswara, 4(1).
Pasla, B. N., Frimawaty, E., Nasution, I., Dianto, M., Almahendra, R., & Ferina, I. S. (2022). VOSviewer: Bibliometric Analysis Tools for Industry 4.0 and Supply Chain. Jurnal Prajaiswara, 3(2), 75-88.
Reforma, B., Ma’arif, A., & Sunardi, S. (2022). Alat Pengukur Kualitas Air Bersih Berdasarkan Tingkat Kekeruhan dan Jumlah Padatan Terlarut. Jurnal Teknologi Elektro, 13(2), 66. https://doi.org/10.22441/jte.2022.v13i2.002
Rusman, J., Michael, A., Garonga, M., & Paonganan, Y. (2023). Sistem kontrol kadar nutrisi tanaman hidroponik berbasis arduino UNO. Journal Dynamic Saint, 7(2), 8–14. https://doi.org/10.47178/dynamicsaint.v7i2.1895
Ruuhwan, R., Rizal, R., & Karyana, I. (2019b). Sistem Kendali dan Monitoring Pada Rumah Pintar Berbasis Internet of Things (IoT). Innovation in Research of Informatics (INNOVATICS), 1(2). https://doi.org/10.37058/innovatics.v1i2.877
Sastro. Y dan Rokhmah N.A. 2016. Hidroponik Sayuran di Perkotaan. Seri Pertanian Perkotaan, BPTP DKI Jakarta, Kementerian Pertanian
Setiadi, I. (2019). PENGAMAN LAJU AIR UMPAN UNTUK ARSINUM KAPASITAS 5M3/HARI MENGGUNAKAN PRESSURE SWITCH DAN SOLENOID VALVE. Jurnal Rekayasa Lingkungan, 11(2). https://doi.org/10.29122/jrl.v11i2.3442
View of PEMANFAATAN LAHAN DENGAN MENGGUNAKAN SISTEM HIDROPONIK. (n.d.). Retrieved October 23, 2023, from https://journal.unita.ac.id/index.php/bonorowo/article/view/14/11
Wirawati, S. M., & Arthawati, S. N. (2021). MENINGKATAN PENDAPATAN MASYARAKAT MELALUI BUDIDAYA TANAMAN SAWI DENGAN METODE HIDROPONIK DI DESA PELAWAD KECAMATAN CIRUAS. ABDIKARYA: Jurnal Pengabdian Dan Pemberdayaan Masyarakat, 3(1), 1–9. https://doi.org/10.47080/abdikarya.v3i1.1151
WN, B. (2016, November 17). Tabel PPM dan pH Nutrisi Hidroponik. HIDROPONIKPEDIA. https://hidroponikpedia.com/tabel-ppm-dan-ph-nutrisi-hidroponik/
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2024 Jurnal Prajaiswara
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.