Pengunaan Arduino Uno Untuk Pengukuran Suhu, Ph dan Do Air Kolam Ikan Bawal Menggunakan Logika Fuzzy
DOI:
https://doi.org/10.30865/jurikom.v6i2.1176Abstract
In paw fish cultivation, fish growth conditions will be optimal if the pH is in the range 7 - 8 for its own temperature is in the range 25 - 30 0C and for (Dissolved Oxygen) has a minimum concentration of oxygen dissolved (DO)> 4 pmm. Unstable conditions of temperature, pH and Dissolved Oxygen can cause water degradation, even in breeding of pomfret can cause fish to die. Therefore, it is necessary to do a periodic check on the pond to maintain the stability of temperature, pH and DO. To maintain the temperature stability of the pond water using LMH35 as a temperature sensor, then to maintain the pH stability of the water using the Electrode Eutech Instrument pH Meter Kit as pH sensor and while to check the minimum concentration of oxygen using Gravity sensor: Analog Dissolved Oxygen Sensor. The output of temperature, pH and DO water measurements in the process using fuzzy logic is displayed on the LCD screen and on the monitor in graphical form making it easier for the pomfret to monitor the condition of the fish pond water.
References
Sulhan, M., & Purwanto, A. (2013). Perancangan Alat Pendeteksi Tingkat Kekeruhan Air Pada Kamar Mandi Berbasis Mikrokontroler Atmega 8535.
Qalit, A., Fardian, & Rahman, R. (2017). Rancang Bangun Prototipe Pemantauan Kadar pH dan Kontrol Suhu Serta Pemberian Pakan Otomatis pada Budidaya Ikan Lele Sangkuriang Berbasis IoT. KITEKTRO: Jurnal Online Teknik Elektro, 2(3), 8–15.
Tomi, A., & Elektronika, P. S. (2010). Sistem monitoring pH dan suhu air dengan transmisi data nirkabel. Elektronika, 8(2), 38–43.
Imaduddin, G., & Saprizal, A. (2017). Otomatisasi Monitoring Dan Pengaturan Keasaman Larutan Dan Suhu Air Kolam Ikan Pada Pembenihan Ikan Lele. Jurnal Sistem Informasi, Teknologi Informatika Dan Komputer, 7.
Wulandari, T. R. (2017). Monitoring kualitas air di kolam air tawar.
Pratama, R. M., Pramana, R., Elektro, J. T., Teknik, F., Maritim, U., & Ali, R. (2017). PENGONTROLAN OTOMATIS SUHU AIR PADA KOLAM.
Susanto, E. D. Y. (2016). SISTEM MONITORING SUHU DAN PH AIR KOLAM BUDIDAYA IKAN AIR TAWAR BERBASIS MIKROKONTROLER ATMega328 SKRIPSI BUDIDAYA IKAN AIR TAWAR BERBASIS MIKROKONTROLER ATMega328.
Taguchi, D. M. (2014). Fakultas Teknik – Universitas Muria Kudus 35, 35–40.
Aryasa, K., & Veraninda, R. (n.d.). Prototype aplikasi pendeteksi kekeruhan air berbasis arduino pada perusahaan daerah air minum makassar 1,2.
Aldaka, Ranu Adi. 2014. “Sistem Otomatisasi Pengkodisian Suhu, pH, dan Kejernihan Air Kolam Pada Pembudidayaan Ikan Patinâ€. Jurnal Seminar Hasil.
Bahtiar, A., Supeno, B., & Negara, M. A. P. (n.d.). Rancang Bangun Pengontrol Suhu dan Kekeruhan Air Kolam Ikan Patin Berbasis Fuzzy Logic. Jurnal Arus Elektro Indonesia (JAEI), 7–12.
Sridharan, S., (2014), Water Quality Monitoring System Using Wireless Sensor Network, International Journal of Advanced Research in Electronics and Communication Engineering (IJARECE) Volume 3, Issue 4.
Zia, H., Harris, N.R., Merrett, G.V., Rivers,M., Coles, N, (2013), The impact of agricultural activities on water quality: A case for collaborative catchment-scale management using integrated wireless sensor networks, Computers and Electronics in Agriculture, Volume 96.
