An Application of the Internet of Things on Sustainable Aquaculture System

Authors

  • SANTHOSH K Bannari Amman Institute of Technology, Sathyamangalam, Erode, Tamil Nadu- 638401, India

DOI:

https://doi.org/10.37255/jme.v16i2pp061-065

Keywords:

Internet of Things , Sustainable Aquaculture

Abstract

Hydroponics is one of the human significant food sources. This paper proposed the model of the system, Feasible Fish-Farming System (SFFS), which can make the water cultivating framework more practical, employing applying the Internet of things (IoT) to lessen the need for energy for controlling the climate. Little freshwater fish species (SFFs) (length <25 cm) are exceptionally plentiful in nutrient A, calcium, iron and so on and consequently can add to social wellbeing through a supplement to country networks. Under the pressing factor of broad current rural practices and aimless collecting, loads of SFFs are step by step declining, and their environments and favourable places are likewise being crumbled at a quicker rate. A superior protectionist approach could be the carp-SFFS combination which will decrease aimless mass catch fishing of SFFs and will guarantee the preservation of normal SFFs stocks in their territories giving financial advantage to partners. Various investigations have effectively showed an example of overcoming adversity of SFF polyculture through carp—SFFs joining. This creation cum preservation practice prompts manageability—a superior term in the fishery is 'social fishery'. The part that needs consideration is the taking care of nature of SFFs to comprehend inside and between species (with carps) food apportioning and living space inclination as better culture cum conservational approach. Exploration in hydroponics is a contribution to increment settled creation. In the last decade, different researchers have supported attempts that came about in advancing current creation advances that have altered homestead creation. Fish developing is having the chance to be a champion among the most remunerating ambitious activities on account of the low advancement, insignificant exertion course of action-adventure and the 3 to half-year gathering cycles. IoT advancements have altered homestead creation in the country. In this paper, we propose an idea to distinguish far off observing the fish cultivating framework by utilizing the different sensors to diminish the dangers. In this paper, we utilize different sensors like pH worth, temperature and level sensors. By utilizing these sensors, all the work is mechanized, and it will likewise be not challenging to screen the fish cultivating distantly from other areas. The SFFS coordinates the sun-based homestead and fish-ranch to lessen the additional energy input. Furthermore, the lighting of LEDs is utilized to help the photosynthesis in the evening. This way is more energy-proficient than the customary siphoning. Besides, this model shows the subjective accessibility of SFFS.

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References

H.-Y. Wang, B.-W. Chen, K. Bharanitharan, J.-S. Wu, S.-P. Tseng, and J.-F. Wang, “Human-centric technology based on orange computing,” in Orange Technologies (ICOT), 2013 International Conference on, pp. 250–251, March 2013.

J. Driesen and F. Katiraei, “Design for distributed energy resources,” Power and Energy Magazine, IEEE, vol. 6, pp. 30–40, May 2008.

J. K. Kok, C. J. Warmer, and I. G. Kamphuis, “Powermatcher: Multiagent control in the electricity infrastructure,” in Proceedings of the Fourth International Joint Conference on Autonomous Agents and MultiagentSystems, AAMAS ’05, (New York, NY, USA), pp. 75–82, ACM, 2005.

J. Gubbi, R. Buyya, S. Marusic, and M. Palaniswami, “Internet of things (IoT): A vision, architectural elements, and future directions”, FutureGeneration Computer Systems, vol. 29, no. 7, pp. 1645 – 1660, 2013.

W. P. Chen, L. K. Wang, T. T. Wang, and Y. T. Chen, “An intelligent management system for aquaculture environmental monitoring and energy conservation,” in 2013 International Workshop on ComputerScience in Sports, Atlantis Press, 2013.

W. Elmessery and S. Abdallah, “Intelligent dissolved oxygen control system for intensive carp system”, Journal of Agricultural Engineering and Biotechnology.

F. Hahn and R. Perez,“Design and evaluation of a dissolved oxygen controller for solar-powered fish tanks,” British Journal of AppliedScience & Technology, vol. 5, no. 2, p. 173, 2015.

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Published

2021-06-01

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Section

Articles

How to Cite

[1]
“An Application of the Internet of Things on Sustainable Aquaculture System”, JME, vol. 16, no. 2, pp. 061–065, Jun. 2021, doi: 10.37255/jme.v16i2pp061-065.

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