Moisture Control System in Mustard Plants Using the PID Method
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Abstract
Irrigating paddy fields is a very important process for plant growth. When the process of irrigating rice fields is carried out by means of continuously flowing water and the soil moisture value is only based on estimates, there are many possibilities for the moisture value not to be measured where this causes the plants to take a long time to grow and the plants will rot or fail to harvest if the humidity value is too high. So a final project was designed with the title Humidity Control System in Mustard Plants Using the PID Method. The way this system works is by placing 5 humidity sensors at five different points to read soil moisture values and each sensor is connected to the Arduino Mega 2560 microcontroller. The controller used in this irrigation system is Proportional Integral Derivative (PID) to get humidity values according to the needs of the plant. The design and construction of an automatic irrigation system in this study was successfully carried out using the PID method, the corresponding Kp parameter values for the system were obtained, namely Kp = 4.328, Ki = 2.634, and Kd = 3.217. This automatic irrigation system can reach the moisture point of the mustard plant, which is 60% with a steady state error of 0.387% and a rise time 79 seconds. The test was carried out for 7 days and by comparing the average plant height in the manual watering area and the automatic watering area. The average growth of plant height in the manual watering area and the automatic watering area has a difference of 1.2 cm. Because this system only focuses on water irrigation where plants also need other nutrients for growth besides water.
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Copyright (c) 2022 Enny Indasyah, Robiq Abiyyu Sadid, Fauzi Imaduddin Adhim, Fivitria Istiqomah, Rizqi Putri Nourma Budiarti
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References
J. IRIGASI, “Standar Perencanaan Irigasi,” 2013.
M. Barakat, B. Cheviron, and R. Angulo-Jaramillo, “Influence of the irrigation technique and strategies on the nitrogen cycle and budget: A review,” Agric Water Manag, vol. 178, pp. 225–238, 2016.
R. K. Saputro, “Peningkatan Efisiensi Irigasi (Studi Kasus: Aset Irigasi di Kabupaten Trenggalek),” Institut Teknologi Sepuluh Nopember, 2017.
N. S. Aeni, “Mengenal Irigasi dari Pengertian sampai Jenisnya,” Banyumas, 2021.
M. A. Martono, “DESAIN SISTEM IRIGASI TANAMAN HIDROPONIK PADA UPT PERTANIAN DAN PETERNAKAN TERPADU SMART GREENHOUSE POLITEKNIK NEGERI JEMBER,” 2020.
E. R. Irawan et al., “OTOMATISASI SISTEM IRIGASI PADA TANAMAN CABAI BERBASIS ARDUINO DENGAN PARAMETER KELEMBABAN TANAH,” in Prosiding Seminar Nasional Terapan Riset Inovatif (SENTRINOV), 2021, vol. 7, no. 3, pp. 301–308.
M. I. Ma’arif, F. I. Adhim, and F. Istiqomah, “Implementasi Metode PID untuk Mengontrol Posisi Motor Servo pada Sistem Sortir Berat Adonan,” Jurnal Teknik ITS, vol. 10, no. 2, pp. A352–A359, 2021.
R. Salazar, J. C. Rangel, C. Pinzón, and A. Rodr’iguez, “Irrigation system through intelligent agents implemented with arduino technology,” 2013.
P. Jain, P. Kumar, and D. K. Palwalia, “Irrigation management system with micro-controller application,” in 2017 1st International Conference on Electronics, Materials Engineering and Nano-Technology (IEMENTech), 2017, pp. 1–6.
S. Thakare and P. H. Bhagat, “Arduino-based smart irrigation using sensors and ESP8266 WiFi module,” in 2018 Second International Conference on intelligent computing and control systems (ICICCS), 2018, pp. 1–5.
K. Taneja and S. Bhatia, “Automatic irrigation system using Arduino UNO,” in 2017 International Conference on Intelligent Computing and Control Systems (ICICCS), 2017, pp. 132–135.
U. Albab, D. Sucipto, and others, “PEMANFAATAN TEKNOLOGI IRIGASI OTOMATIS BERTENAGA SURYA DI KELOMPOK TANI KEDONDONG KECAMATAN PAGERBARANG KABUPATEN TEGAL,” Jurnal Pengabdian Mandiri, vol. 1, no. 2, pp. 175–180, 2022.
K. Ogata and others, Modern control engineering, vol. 5. Prentice hall Upper Saddle River, NJ, 2010.