PENDAMPINGAN IMPLEMENTASI PEMAKAIAN SISTEL INFORMASI MONITORING KONDISI AIR PADA TAMBAK UDANG VANAME BERBASIS WEB DI TAMBAK SUMULYONO, MANGKANGKULON, TUGU SEMARANG

Sindung Hadwi Widi Sasono, Sidiq Syamsul Hidayat, Thomas Agung Setyawan, Slamet Widodo, Bambang Eko Sumarsono, Abu Hasan, Suhendro Suhendro, Rizkha Ajeng Rochmatika

Abstract


In the era of digitalization, which continues to develop, it presents an IoT (Internet of Things)-based agricultural and livestock industrial revolution. Specialized in the field of vaname shrimp rearing farms. However, until now there are still shrimp farmers who carry out traditional shrimp farming practices. As a result, shrimp activity can decrease due to poor management. So from these problems, an application for monitoring water conditions in vaname shrimp ponds is needed based on Android. The application can display information on the condition of vaname shrimp pond water in the form of temperature, salt content, pH, and turbidity which can be monitored remotely at any time via a smartphone. The research method used is waterfall covering communication, planning, modeling, system creation, and testing. The results obtained are the Simple Shrimp application can monitor water conditions in vaname shrimp ponds. For testing system functions, data obtained in the form of water condition values from vaname shrimp ponds are appropriate or even not in accordance with the standard value of optimal vaname shrimp pond water conditions by WWF-Indonesia. Based on data from black-box testing (application functionality) the water condition monitoring system in Android-based vaname shrimp ponds runs according to the system design. The average load time for each activity in the application is 3.157 s with a bandwidth of 4.25 Mbps and 2.774 s at a bandwidth of 19.6 Mbps with the results according to the expected target. And in terms of application performance, the Simple Shrimp application is quite light when used.


Keywords


IoT; Water Condition Monitoring; Vaname Shrimp Pond; Android Application

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References


Badan Karantina Ikan, P. M. D. K. H. P. (n.d.). KKP | Kementerian Kelautan dan Perikanan, NILAI EKSPOR PERIKANAN CAPAI USD1,24 MILIAR. Retrieved May 24, 2021, from https://kkp.go.id/artikel/18769-triwulan-i-2020-nilai-ekspor-perikanan-capai-usd1-24-miliar

BPS, B. P. S. (2015). Ini Masalah Besar yang Dihadapi Industri Udang Indonesia. 22/10/2015. https://www.wartaekonomi.co.id/read77215/ini-masalah-besar-yang-dihadapi-industri-udang-indonesia

Tim Perikanan WWF-Indonesia, I. M. (2014). BMP Budidaya Udang Vannamei Tambak Semi Intensif dengan Instalasi Pengolahan Air LImbah (IPAL). Jurnal Akuakultur Indonesia, 22, 1–22. www.wwf.or.id

Wibisono, D. A., Aminah, S., & Maulana, G. (2014). RANCANG BANGUN SISTEM MONITORING KUALITAS AIR PADA TAMBAK UDANG BERBASIS INTERNET OF THINGS. Perpustakaan Universitas Sanata Dharma, viii.

Wardhany, V. A., Yuliandoko, H., Subono, Harun Ar, M. U., & Astawa, I. G. P. (2019). Fuzzy Logic Based Control System Temperature, pH and Water Salinity on Vanammei Shrimp Ponds. 2018 International Electronics Symposium on Engineering Technology and Applications, IES-ETA 2018 - Proceedings, 145–149. https://doi.org/10.1109/ELECSYM.2018.8615464

Winarto, T. A. (2019). OPTIMASI ANDROID UNTUK MONITORING DAN KONTROL KUALITAS AIR PADA TAMBAK UDANG VANAME.


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