Prototype of Water Quality Monitoring for Grouper Fish Pond Based on Microcontroller Arduino
DOI:
https://doi.org/10.23887/ijnse.v5i2.32702Keywords:
Water Quality, Grouper Fish Pond, Microcontroller, ArduinoAbstract
Prototype monitoring of grouper pond water quality is intended to improve the water quality of grouper ponds if there is a change in air quality such as acidity, air temperature, and air turbidity level, which can be caused by fish or fish that can be used on fish breathing fish that can make fish become stressful and cannot multiply properly and can cause death in fish. To overcome these problems, a technology that can be studied and controlled according to the standards is needed. It can also facilitate pond farmers to facilitate pond air quality and the automation of standardization of water quality indicators. This development uses internet-related matters in data communication between prototypes with farm farmers. The development model used is prototyping. For the testing process, (3) trials are conducted: (1) evaluation testing, with test results, prototypes, get a percentage of 100% with a very effective category. (2) validity testing, with a margin of error of 4.38% and the overall sensor test results under 4.38%. (3) practically test, obtained by the results of 92.2% of respondents stated that monitoring of this prototype is very practical.
References
Abiyaksa, D., Adi, S. H., & Siskandar, R. (2020). Pembuatan Prototype Smart Budidaya Ikan Mas Koki Berbasis Arduino. Jurnal Sains Indonesia, 1(1), 45–50. http://www.jurnal.pusatsains.com/index.php/jsi/article/view/6.
Ahmad, K. H. G., & Suprianto, B. (2019). Sistem Kontrol Temperatur, Ph, Dan Kejernihan Air Kolam Ikan Berbasis Arduino UNO. Jurnal Teknik Elektro, 8(2). https://ejournal.unesa.ac.id/index.php/JTE/article/view/27283.
Alamsyah, N., & Nurcahya, M. A. (2019). Otomatisasi Pengukuran PH Akuarium Air Laut Dengan Menggunakan Mikrokontroller Arduino Uno. Naratif: Jurnal Nasional Riset, Aplikasi Dan Teknik Informatika, 1(1), 22–28. https://naratif.sttbandung.ac.id/index.php/naratif/article/view/18.
Ardiwijoyo, A., Jamaluddin, J., & Mappalotteng, A. M. (2018). Rancang bangun alat pemberi pakan ikan dengan sistem automatisasi berbasis Arduino Uno R3 dengan sistem kendali SMS. Jurnal Pendidikan Teknologi Pertanian, 4, 12–20. http://eprints.unm.ac.id/13423/. DOI: https://doi.org/10.26858/jptp.v1i0.6228
Budiasa, I. W., Santosa, I. G. N., Ambarawati, I. G. A. A., Suada, I. K., Sunarta, I. N., & Shchegolkova, N. (2018). Lake Batur ecosystem's feasibility study and capacity to preserve tilapia fish farming in Bali, Indonesia. Biodiversitas Journal of Biological Diversity, 19(2), 563–570. https://smujo.id/biodiv/article/view/2544. DOI: https://doi.org/10.13057/biodiv/d190232
Daulay, N. K. (2018). Desain Sistem Pengurasan Dan Pengisian Air Kolam Pembenihan Ikan Secara Otomatis Menggunakan Arduino Dengan Sensor Kekeruhan Air. Jurnal Khatulistiwa Informatika, 6(1). https://ejournal.bsi.ac.id/ejurnal/index.php/khatulistiwa/article/view/4380.
Erten, E., & Özdilek, Ş. Y. (2018). Development of an Arduino Based Fish Counter Prototype for European Eel (Anguilla Anguilla L.). Natural and Engineering Sciences, 3(1), 16–27. https://doi.org/10.28978/nesciences.379314. DOI: https://doi.org/10.28978/nesciences.379314
Fatimah, I. N., Iskandar, J., & Partasasmita, R. (2020). Ethnoecology of paddy-fish integrative farming (Minna Padi) in Lampegan Village, West Java, Indonesia. Biodiversitas Journal of Biological Diversity, 21(9). https://www.smujo.id/biodiv/article/view/4673 DOI: https://doi.org/10.13057/biodiv/d210961
Febtriko, A. (2017). Sistem Kontrol Perternakan Ikan Dengan Menggunakan Mikrokontroller Berbasis Android. Rabit: Jurnal Teknologi Dan Sistem Informasi Univrab, 2(1), 21–31. http://jurnal.univrab.ac.id/index.php/rabit/article/view/148. DOI: https://doi.org/10.36341/rabit.v2i1.148
Ghufran, M. K. (2001). Usaha Pembesaran Ikan Kerapu di Tambak. Kanisius.
Ghufran, M. K. (2010). Budidaya Ikan Kerapu Batik. Akademia.
Gunawan, B., Takeuchi, K., & Abdoellah, O. S. (2004). Challenges to community participation in watershed management: an analysis of fish farming activities at Saguling Reservoir, West Java-Indonesia. Water Policy, 6(4), 319–334. https://doi.org/10.2166/wp.2004.0021. DOI: https://doi.org/10.2166/wp.2004.0021
Harel, D. A., Pratiwi, H. I., & Hermawan, H. (2019). Pengembangan Prototipe Sistem Otomasi Alat Pemberi Makan Ikan Terjadwal pada Aquarium Berbasis Arduino UNO R3. Widyakala: Journal of Pembangunan Jaya University, 5(2), 104–110. http://ojs.upj.ac.id/index.php/journal_widya/article/view/104. DOI: https://doi.org/10.36262/widyakala.v5i2.104
Imaduddin, G., & Saprizal, A. (2017). Otomatisasi monitoring dan pengaturan keasaman larutan dan suhu air kolam ikan pada pembenihan ikan lele. JUST IT: Jurnal Sistem Informasi, Teknologi Informasi Dan Komputer, 7(2), 28–35. https://jurnal.umj.ac.id/index.php/just-it/article/view/1064.
Indriani, A., & Fajri, M. (2019). Kontrol Kualitas Kadar Air Laut Menggunakan Fuzzy LogicUntuk Habitat Ikan Kerapu. JTEV (Jurnal Teknik Elektro Dan Vokasional), 5(1.1), 77–83. https://doi.org/10.24036/jtev.v5i1.1.106151. DOI: https://doi.org/10.24036/jtev.v5i1.1.106151
Indriani, A., Witanto, Y., Supriyadi, S., & Hendra, H. (2017). Sistem Kontrol Kekeruhan dan Temperatur Air Laut Menggunakan Microcontroller Arduino Mega. Jurnal Teknik Mesin Mercu Buana, 6(3), 158–163. https://doi.org/10.22441/jtm.v6i3.1830. DOI: https://doi.org/10.22441/jtm.v6i3.1830
Koniyo, Y., & Kasim, F. (2017). Suitable location map of floating net cage for environmentally friendly fish farming development with Geographic Information Systems applications in Lake Limboto, Gorontalo, Indonesia. Aquaculture, Aquarium, Conservation & Legislation, 10(2), 254–264. https://www.proquest.com/openview/045a37c8b9c0e5dd8f40d5da6890def5.
Michael, D., & Gustina, D. (2019). Rancang Bangun Prototype Monitoring Kapasitas Air Pada Kolam Ikan Secara Otomatis Dengan Menggunakan Mikrokontroller Arduino. IKRA-ITH INFORMATIKA: Jurnal Komputer Dan Informatika, 3(2), 59–66. http://journals.upi-yai.ac.id/index.php/ikraith-informatika/article/view/319.
Nasir, J. A., Hardienata, S., & Suriansyah, M. I. (2016). Model Pengontrol Tingkat Keasaman Air Untuk Budidaya Ikan Koi. Universitas Pakuan.
Pulungan, A. B., Putra, A. M., Hamdani, H., & Hastuti, H. (2020). Sistem Kendali Kekeruhan Dan pH Air Kolam Budidaya Ikan Nila. ELKHA: Jurnal Teknik Elektro, 12(2), 99–104. https://jurnal.untan.ac.id/index.php/Elkha/article/view/40688. DOI: https://doi.org/10.26418/elkha.v12i2.40688
Qalit, A., Fardian, F., & Rahman, A. (2017). Rancang Bangun Prototipe Pemantauan Kadar pH dan Kontrol Suhu Serta Pemberian Pakan Otomatis pada Budidaya Ikan Lele Sangkuriang Berbasis IoT. Jurnal Komputer, Informasi Teknologi, Dan Elektro, 2(3). http://202.4.186.66/kitektro/article/view/8324.
Rahmanto, Y., Rifaini, A., Samsugi, S., & Riskiono, S. D. (2020). Sistem Monitoring pH Air Pada Aquaponik Menggunakan Mikrokontroler Arduino UNO. Jurnal Teknologi Dan Sistem Tertanam, 1(1), 23–28. https://ejurnal.teknokrat.ac.id/index.php/jtst/article/view/711. DOI: https://doi.org/10.33365/jtst.v1i1.711
Sambora, Y. M., & Waluyanti, S. (2016). Monitoring Kualitas Air Pada Budidaya Udang Berbasis Atmega328 Yang Terkonfigurasi Bluetooth Hc-05. E-JPTE (Jurnal Elektronik Pendidikan Teknik Elektronika), 5(6), 72–80.
