Design of Wireless Sensor Network of Monitoring and Controlling Fish Farm

Ehab K.¹ , Badraldeen A.² , Alaa A.³ , Osman A.⁴ , Mortada M. Abdulwahab⁵

1. Engineering Program, Alnour College of Science and Technology, Sudan.
2. Engineering Program, Alnour College of Science and Technology, Sudan.
3. Engineering Program, Alnour College of Science and Technology, Sudan.
4. Engineering Program, Alnour College of Science and Technology, Sudan.
5. Department of Electronic Engineering/Faculty of Engineering and Technology, University of Gezira, Sudan.

Section:Research Paper, Product Type: Journal-Paper
Vol.11 , Issue.1 , pp.29-33, Feb-2023

Online published on Feb 28, 2023

Copyright © Ehab K., Badraldeen A., Alaa A., Osman A., Mortada M. Abdulwahab . This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
 

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Abstract :
Recently fish farming has been played an important role in developing economics and providing health food. The uses of modern technology in the fish farms assist to increase both the amount of production and the quality. The objective of this paper was designing an electronic system based on using wireless sensor network to improve the operating system of traditional fish farm by establishing a real time monitoring of the water quality. The proposed design consists of Arduino controller, pumps and a group of sensors. The water quality has been measured by monitoring specific factors such as the pH factor of water, temperature of water, the dissolved oxygen in water, and the quantity of Ammonia. The system provided with monitoring page which was designed with visual basic platform and it has been connected wirelessly to the field using XBee technology. The system provides an automatic control mechanism of water recycling through mechanical filter the automotive system based on the received information from the field which determined the water quality. The system was simulated using electronic workbench software which also used in testing the expected operating of the system in different scenarios. The overall results were reliable and were successful in all possible cases as planned for the required goals.

Key-Words / Index Term :
XBee; Visual basic; Sensors; Arduino; electronic design

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