SISTEM PERINGATAN KETINGGIAN AIR DAN KENDALI TEMUKU (PINTU AIR) UNTUK IRIGASI SAWAH
DOI:
https://doi.org/10.31598/jurnalresistor.v3i1.560Keywords:
Sms, Arduino, Ultrasonic, SIm 900, TemukuAbstract
The irrigation system in rainfed lowland is done through a water gate (Temuku). Farmers should always control the height of the water and wetland gates during the dry and rainy seasons. This is due to delays in control which can cause the fields to dry or flooded. In this research, water warning system and Temuku control (water gate) for irrigation of paddy field. This tool can provide water level information and can also close or open the irrigation water gate through an SMS. Components used in the manufacture of water alert warning systems and the control of Temuku (sluice gates) for irrigation rice fields are arduino UNO, ultrasonic sensors, SIM 900 and servo motors. From the results of tests that have been done, it can be concluded that the system of water warning and control of Temuku (sluice gate) for irrigation of paddy field has been able to provide water level information to farmers and also the system has been able to control the irrigation water gate according to the input given by SMS.
References
BPS, “Badan Pusat Statistik Provinsi Bali,†Badan Pus. Stat. Bali, 2018.
S. Suharyanto, J. H. Mulyo, D. H. Darwanto, and S. Widodo, “Analisis Produksi dan Efisiensi Pengelolaan Tanaman Terpadu Padi Sawah di Provinsi Bali,†J. Penelit. Pertan. Tanam. Pangan, 2015.
I. M. S. PRIANDIKA, M. ANTARA, and I. D. A. S. YUDHARI, “Pola Kemitraan Komoditi Padi Sawah antara P4S Sri Wijaya dengan Subak Batusangian, Desa Gubug, Kecamatan Tabanan, Kabupaten Tabanan,†J. Agribus. Agritourism, 2015.
S. Suharyanto, J. Rinaldy, and N. Ngurah Arya, “Analisis Risiko Produksi Usahatani Padi Sawah,†Agrar. J. Agribus. Rural Dev. Res., 2015.
S. Mufida Elly, “Otomatisasi Irigasi Sawah Menggunakan Sensor Elktroda Level Berbasis Mikrokontroler Atmega8535,†J. Tek. Komput. AMIK BSI, 2017.
Desnanjaya. Supartha, “Rancang Bangun Alat Modul Praktikum Mikrokontroler di STMIK STIKOM Indonesia,†S@CIES, vol. 7, no. 1, pp. 61–68, 2016.
M. Subart, N. Y. Salim, and D. V. Paul, “IoT Based Home Security System,†Ijarcce, vol. 8, no. 4, pp. 179–187, 2019.
I. G. M. N. Desnanjaya and I. B. A. I. Iswara, “Trainer Atmega32 Sebagai Media Pelatihan Mikrokontroler Dan Arduino,†J. Resist. (Rekayasa Sist. Komputer), 2018.
Arduino, “ARDUINO UNO REV3,†store.arduino.cc, 2018. .
I. G. M. N. Desnanjaya, I. A. D. Giriantri, and R. S. Hartati, “Rancang Bangun Sistem Control Air Conditioning Automatis Berbasis Passive Infrared Receiver,†in Prosiding Conference on Smart-Green Technology in Electrical and Information System, 2013.
Atmel, “ATmega328 Datasheet,†AVR Microcontrollers, 2016.
Atmel, ATmega328/P Datasheet Complete. 2016.
ATMEL, “8-bit XMEGA A Microcontroller,†Writing. 2009.
I. G. M. N. Desnanjaya and I. G. I. Sudipa, “The Control System of Kulkul Bali Based on Microcontroller,†in International Conference on New Media Studies, 2019, pp. 245–251.
Atmel, “ATmega48A/PA/88A/PA/168A/PA/328/P,†AVR Microcontrollers, 2015.
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