Koi fish is a type of freshwater ornamental fish that has high economic value. Koi fish have attractive body colors and ideal body shapes so they have good sales prospects. However, koi fish farming has several obstacles, one of which is the low recovery rate and the relatively slow growth of fish. Water quality is the main parameter in the success of a fishing effort. Therefore, this study designed a tool that can help koi fish farmers in unifying the quality of pond water so that koi fish can grow and develop properly. This monitoring system is designed by implementing an automatic control monitoring system to produce good water quality for koi fish farming. Data obtained from water quality monitoring are parameters of pH, ammonia, and water temperature. The results of this cultivator's research can monitor the quality of fish pond water and immediately get water quality control automatically.

Afdali, M., Daud, M., & Putri, R. (2018). Perancangan Alat Ukur Digital untuk Tinggi dan Berat Badan dengan Output Suara berbasis Arduino UNO. ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika, 5(1), 106. https://doi.org/10.26760/elkomika.v5i1.106

Budiman, F., Rivai, M., & Nugroho, M. A. (2019). Monitoring and Control System for Ammonia and pH Levels for Fish Cultivation Implemented on Raspberry Pi 3B. Proceedings - 2019 International Seminar on Intelligent Technology and Its Application, ISITIA 2019, 68–73. https://doi.org/10.1109/ISITIA.2019.8937217

Deriyanti, A. (2016). Korelasi Kualitas Air dengan Prevalensi Myxobolus pada Ikan Koi di Sentera Budidaya Ikan Koi Kabupaten Blitar, Jawa Timur. Universitas Airlangga, 1–107.

Dwi Lestari, E. (2020). Pembenihan dan Pembesaran Ikan Koi Cyprinus carpio di Mina Karya Koi, Kabupaten Sleman, Daerah Istimewa Yogyakarta.

Fakhriza, R., Rahmat, B., & Astuti, S. (2021). Perancangan Dan Implementasi Alat Monitoring Dan Controlling Kualitas Air Pada Kolam Ikan Koi ( Design and Implementation of Water Quality Monitoring and Controlling Equipment in Koi Fish Pond ). E-Proceeding of Engineering, 8(5), 5274–5289.

Hasibuan, A., Asran, A., Sembiring, R. R., Isa, M., Yusoff, M. I., & Rahim, S. R. A. (2021). Design Of Investment Detection In Fish Cultivation Uno Arduino Based. Andalasian International Journal of Applied Science, Engineering and Technology, 1(1), 10–20.

Hasibuan, A., Qodri, A., Isa, M., & others. (2021). Temperature Monitoring System using Arduino Uno and Smartphone Application. Bulletin of Computer Science and Electrical Engineering, 2(2).

Hasibuan, A., Rosdiana, R., & Tambunan, D. S. (2021). Design and Development of An Automatic Door Gate Based on Internet of Things Using Arduino Uno. Bulletin of Computer Science and Electrical Engineering, 2(1), 17–27.

Kifly, K., Halid, I., & Baso, H. S. (2020). PENGARUH KETINGGIAN AIR TERHADAP KONSUMSI OKSIGEN LARVA IKAN MAS KOI (Cyprinus carpio). Fisheries Of Wallacea Journal, 1(2), 77–83.

Kit, M., & Sen, S. K. U. (n.d.). PH meter ( SKU : SEN0161 ).

Lembang, M. S., & Rahman, R. (2022). Proses Pembenihan Ikan Koi (Cyprinus carpio) Dengan Metode Pemijahan Semi Buatan Di Balai Periknan Budidaya Air Tawar (Bpbat) Mandiangin. Samakia: Jurnal Ilmu Perikanan, 13(1), 1–7.

Maulana, E. (2014). Sensor dan Tranduser (Bahan Ajar). Bahan Ajar Elektronika Kontrol - Sensor Dan Transduser.

Nasution, E. S., Hasibuan, A., & Rifai, M. (2018). Rancang Bangun Alat Penjemur Terasi Otomatis Berbasis Microcontroler. Jurnal Sistem Informasi, 2(2).

Nrartha, I. M. A., Saputra, A. S. Y., Supriono, S., Hasibuan, A., Sayuti, M., & Al-Ani, W. K. A. (2022). Arduino Mega Based System Design for Sequence and Phase Difference Detection of Three-Phase Systems. Journal of Renewable Energy, Electrical, and Computer Engineering, 2(1), 31–37.

Rosdiana, R., Hasibuan, A., Chairani, A., Daud, M., & Sayuti, M. (2022). Stress Diagnosis System Using Fuzzy Logic Method. MOTIVECTION: Journal of Mechanical, Electrical and Industrial Engineering, 4(3), 355–366.

Rozaq, I. A., & DS, Y. N. (2017). Uji Karakterisasi Sensor Suhu Ds18B20 Waterproof Berbasis Arduino Uno Sebagai Salah Satu Parameter Kualitas Air. Prosiding SNATIF Ke-4, 303–309.

Salam, R. (2019). Perancangan Sistem Antisipasi Padam Listrik Pada Amplifier Masjid Berbasis Arduino Uno. Jurnal Energi Elektrik, 8(1), 32–41.

Shan, H. (2017). DS18B20 Waterproof Temperature Sensor Cable. Terraelectronica.Ru, 0–2.

Student, U. G. (2021). Water Quality Monitoring System Implemented With IoT. International Journal of Emerging Trends in Engineering Research, 9(7), 1020–1024. https://doi.org/10.30534/ijeter/2021/29972021

Tambunan, P. M. (2018). Studi Pengaruh Ph Dan Kesadahan Terhadap Pertumbuhan Ikan Mas Koi (Crypinus Carpio) Dengan Media Pertumbuhan Air Sungai Tuntungan. Jurnal Saintika, 18(1), 8–11.