Analysis of the Automated Sorting and Counting System for Tilapia Fry Based on Quantity, Size, and Gender
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Abstract
This research addresses the challenges in aquaculture, specifically in the cultivation of Tilapia in brackish water. The study focuses on enhancing the efficiency and accuracy of sorting and counting fish fry, a factor that significantly influences the profitability of cultivators. An automated sorting and counting system is proposed, capable of categorizing Tilapia fry based on their quantity, size, and gender. This system employs sensors and a microcontroller, such as Arduino, to process the gathered information and control the sorting mechanism. The sorted and counted fry are subsequently separated into different compartments for easy collection and further cultivation. The data collected by the system can be displayed on an LCD screen or stored for future analysis and planning. This research represents a significant advancement in aquaculture technology, potentially leading to increased profitability and sustainability in Tilapia farming. Further research and development are required to refine the system and ensure its effectiveness and reliability under various cultivation conditions.
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[2] Dzikri, Alfanza , 2020, “ program studi teknik elektro” dalam skripsi alat penyortir ikan lele berbasis arduino uno (hlm 10), Yogya : Universitas Islam Indonesia
[3] Gultom, frensom, 2020, “ program studi D3 Fisika” dalam skripsi alat sortir benda berdasarkan warna rgb menggunakan sensor tcs3200 berbasis mikrokontroller atmega 328,(hlm 4 -5 ), Medan : Universitas sumatera utara (USU)
[4] Supriadi , 2019. “ program studi budidaya perairan” dalam skripsi Efesiensi Pakan Dan Laju Pertumbuhan Ikan Nila (Oreochromis Niloticus) Yang Dipuasakan Secara Periodik Pada Wadah Terkontrol (hlm 3-5) makasar : universitas muhammadiyah makasar
[5] PUIMERA, YAN ILMAS, and Danang Danang. "Rancang Bangun Alat Penyortiran Barang Otomatis Berbasis Arduino Pada Pt Wahana Prestasi Logistik Semarang." Elkom: Jurnal Elektronika dan Komputer 11.1 (2018): 38-44.
[6] Asmara, Dody Yuli, and Endryansyah Endryansyah. "Perancangan Sistem Transfer Station Barang Pada Sistem Penyortiran Otomatis Menggunakan Teknologi Elektro-Pneumatik." JURNAL TEKNIK ELEKTRO 13, no. 2 (2024): 174-181.
[7] Hadi, Miftahul, and S. T. Fajar Suryawan. "Perancangan prototype penyortiran barang otomatis di gudang peralatan alat tulis." PhD diss., Universitas Muhammadiyah Surakarta, 2018.
[8] Utomo, Muhajir. "Tanpa olah tanah: Teknologi pengolahan pertanian lahan kering." (2015).
[9] Amin, B. (2018). Kondisi Morfometrik Rhizophora Apiculata Pada Kawasan Dengan Aktivitas Antropogenik Berbeda Di Pesisir Timur Indragiri Hilir, Sumatera (Morphometric Conditions of Rhizophora apiculata In Area With Different Anthropogenic Activities In The East Coast Of Indragiri Hilir, Sumatra). Asian Journal of Environment, History and Heritage, 2(1).
[10] Zaki, M., Jati, P. Z., Novita, M., & Hidayat, R. (2021). Karakteristik Morfometrik Kambing Lokal di Kecamatan Tambang dan Kecamatan Siak Hulu Kabupaten Kampar. Journal of Engineering Science and Technology Management (JES-TM), 1(2), 32-36.
[11] Taufiq, Taufiq, Firdus Firdus, and Iko Imelda Arisa. Pertumbuhan benih ikan bawal air tawar (Colossoma macropomum) pada pemberian pakan alami yang berbeda. Diss. Syiah Kuala University, 2016.
[12] Anjasmoro, Reza, Mochammad Hannats Hanafi Ichsan, and Dahnial Syauqy. "Perancangan dan Implementasi Sistem Pemantauan Kotak Benih terhadap Ruangan menggunakan Protokol ESP-NOW." Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer 8, no. 1 (2024): 63-74.
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