TEMPERATURE CONTROL AND MONITORING SYSTEM (TCMS) BERBASIS INTERNET OF THINGS DENGAN SMARTPHONE ANDROID PADA AKUARIUM IKAN MOLLY BALON

  • Muhammad Akbar Setiawan STMIK Widya Utama
  • Singgih Setia Andiko STMIK Widya Utama
  • Singgih Briandoko STMIK Widya Utama
  • Rianti Yunita Kisworini STMIK Widya Utama

Abstract

Abstract Approximately 363 types of freshwater ornamental fish bred in Indonesia and exported to European countries. Among the many types of freshwater ornamental fish, the focus will be on the Molly fish (Poecilia sphenops). Ornamental fish are well-known to the public as aquarium decorations. The Molly fish (Poecilia sphenops) is one of the ornamental fish with beautiful colors, belonging to the Poecilidae family originating from Mexico, Florida, and Virginia. The maximum size of this fish can reach 12-13 cm states that Molly fish (Poecilia sphenops) are widely cultivated because of their beautiful shape, color, omnivorous nature, and viviparous breeding. The Molly fish typically lives in water temperatures ranging from 15-27°C. They prefer a slightly alkaline pH, ranging from 7 to 8. This temperature and pH monitoring device was developed to address these challenges, making it easier for marble Molly fish farmers to control the temperature and pH levels in tarp ponds. The function of this device is to provide real-time temperature and pH data to the IoT application, which can be accessed by farmers. In addition to monitoring, the device also controls the temperature by sending commands to the heater to adjust to the optimal temperature for raising Molly fish.The performance of this device has been tested based on the Dimension of Quality for Goods, achieving a valid score of 82.26%. According to usability testing, the device achieved the highest performance in terms of usability and efficiency, with a score of 98.75%, indicating that the device is easy to use and efficient.

References

[1] Lesamana, D. S. dan Dewrmawan, I. 2001. Budidaya Ikan Hias Air Tawar Populer. Penebar Swadaya. Jakarta. 100 Hal.
[2] Kuncoro, E.B. 2011. Sukses Budidaya Ikan Hiar Air Tawar. Yogyakarta. 219 Hal.Anonim, 20152 http://id.wikipedia.org/wiki/Suhu diakses 17 Juni 2019
[3] Kasmawijaya A. dan Syafei L.S, 2005. Buku Seri Kesehatan Ikan “Black Molly Sehat Produksi Meningkat”. Sekolah Tinggi Penyuluhan Pertanian, Jurusan Penyuluhan Perikanan, Bogor.
[4] Gifson, A., & Slamet, S. (2009). Sistem Pemantau Ruang Jarak jauh dengan Sensor Passive Infrared berbasis 5.Mikrokontroler AT89S52. TELKOMNIKA (Telecommunication Computing Electronics and Control), 7(3), 201-106.
[5] Budioko, T. (2016). Sistem monitoring suhu jarak jauh berbasis internet of things menggunakan protokol mqtt. Jurusan Teknik Komputer STIMIK Akakom Yogyakarta.
[6] Junaidi, A. (2015). INTERNET OF THINGS, SEJARAH, TEKNOLOGI DAN PENERAPANNYA. Jurnal Ilmiah Teknologi Informasi Terapan, 1(3)
[7] Hikmat, Dr. Harry. 2010. Monitoring dan Evaluasi Proyek.
[8] Harion, Mochammad, M. Jasa Afroni & Oktriza Melfazen. PROTOTYPE RUMAH OTOMATIS MENGGUNAKAN MIKROKONTROLER ATMEGA 328P DENGAN KONSEP IoT SEBAGAI KENDALI JARAK JAUH. Sinarfe7. ISSN :2621-5551 diakses pada tanggal 12 September 2020
[9] Nazruddin Safaat H. 2012 (Edisi Revisi). Pemograman Aplikasi Mobile Smartphone dan Tablet PC Berbasis Android. Informatika. Bandung.
Published
2024-08-05
How to Cite
SETIAWAN, Muhammad Akbar et al. TEMPERATURE CONTROL AND MONITORING SYSTEM (TCMS) BERBASIS INTERNET OF THINGS DENGAN SMARTPHONE ANDROID PADA AKUARIUM IKAN MOLLY BALON. Teknikom: Teknologi Informasi, Ilmu Komputer dan Manajemen, [S.l.], v. 9, n. 1, p. 1-8, aug. 2024. ISSN 2598-2958. Available at: <https://journal.swu.ac.id/index.php/teknikom/article/view/224>. Date accessed: 13 feb. 2025.