Analisis Tingkat Error Sistem Pengaturan Salinitas Air Pembenihan Budidaya Udang Galah

  • Syaiful iful Rachman poliban
  • Yoenie Indrasary
  • Sunu Hasta Wibowo
  • Zaiyan Ahyadi
  • Edy Yohanes
Keywords: Analysis, system error rate, water volume, water salinity

Abstract

By applying regulatory system technology using a controller a built-in recovery medium can control equipment such as a solenoid valve, a water pump. Then the system was equipped with conductivity sensor that serves to monitor the value of parameters of water salinity and water flow sensor to determine the water volume, in this research to make a prototype of water hatchery regulation system 5 ppt while for the maintenance of prawn larvae 12 ppt, then analyzed against the system water volume error rate. Based on the result of the research, it was found that the error rate of the system that had been de-signed the tool testing shows the average error of salinity water volume in the experimental system on 5 ppt media for fresh water volume indicated the system had an average error of 0.26 liters, while the salt water volume of 5ppt that the system had an average error of 0.18 liters. Then the system error rate on 12 ppt media experimental result for fresh water volume indicated that the system had an average error of 0.18 liters, while salinity water volume indicated that the system had an average error of 0.14 liters. For further research it will be necessary to add a PID or Fuzzy control system to the error rate that will occur could be reduced.

Downloads

Download data is not yet available.

References

B.K. Chand ,et.al., “Effect of salinity on survival and growth of giant freshwaterprawn Macrobrachium rosenbergii (de Man),”, Aquaculture Re-ports,Volume 2, Pages 26–33, India, 2015.
H. Sutomo, et.al, “Inovasi Produk dan Perbanyakan Calon Udang Galah,” Jurnal Budidaya Air Tawar Vol. 10,No. 2, hal 46-60, Nopember, 2013.
Michael B. New Marlow,“Farming freshwater prawns, A manual for the culture ofthe giant river prawn (Macrobrachium rosenbergii),”, Food and Agriculture Organization of the United Nations. ISBN 92-5-104811-8 .Rome., 2002
Madlen M. Habashy dan Montaser M. S. Hassan , 2011, Effects of temperature andsalinity on growth and reproduction of the freshwater prawn, Macrobrachium rosenbergii (Crustacea- Decapoda) in Egypt., IJESE .Vol. 1: 83-90, ISSN 2156-7549, http://www.pvamu.edu/texged Prairie View A&M University, Texas, USA.
Peter Mwangi, Elijah Mwangi,Patrick M. Karimi“A Low Cost Water Meter System based on the Global System for Mobile Communications,” Inter-national Journal of Computer Applications (0975 – 8887) Volume 142 – No.12, May 2016
Ratanak ou, , Breeding and rearing giant freshwater Prawn Larvae in Tanks UsingDifferent Salinity.,IJERD.phnom penh.Cambodia. 2011
Ria Sood, Manjit Kaur, Hemant Lenka “Design and Development of Automatic Water Flow Meter,” International Journal of Computer Science, Engineering and Applications (IJCSEA) Vol.3, No.3, June 2013
Sumardi, , Implementasi sensor level untuk alat ukur volume cairan serba guna dilingkungan industri, TRANSMISI, Jurnal Teknik Elektro, Volume 11, Nomor 2, Juni2009, hlm 91-99 Semarang, Jawa Tengah, Indonesia., 2009
Yulius Kisworo, 2014, Jarak Genetik Udang Galah Dari Muara Sugai Barito, KintapDan Pagatan Sebagai Calon Induk Unggul. ZIRAA’AH, Volume 39 .No. 1, Hal 26-29 ,ISSN 1412-1468.
Yus Warseno, S.Pi, , Optimalisasi Pemanfaatan Lahan Untuk PengembanganBudidaya Air Tawar Khususnya Pembenihan Dan Budidaya Udang Galah Skala Rumah Tangga, Teknologi Tepat Guna , Budidaya Perikanan, 2004
Published
2018-01-09
Section
Articles
Abstract viewed = 393 times
PDF downloaded = 445 times