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Fuzzy Logic-Based Adaptive Aquaculture Water Monitoring System Based on Instantaneous Limnological Parameters

Mary Grace Ann Bautista, Maria Gemel B. Palconit, Marife A. Rosales, Ronnie Concepcion, Argel A. Bandala, Elmer P. Dadios, Bernardo Duarte

2022Journal of Advanced Computational Intelligence and Intelligent Informatics16 citationsDOIOpen Access PDF

Abstract

Water quality is crucial for maintaining a sustainable living environment in aquaculture. Limnological parameters affects the fish physiology, growth rate, and feed efficiency and may lead to high mortality rate under extreme conditions. The development of an adaptive aquaculture monitoring system for water quality using fuzzy logic will address this problem. Using Mamdani-type fuzzy inferences system (FIS) model, the input limnological parameters such as pH, temperature, total dissolved solids, and dissolved oxygen levels were transformed to four output states: excellent, good, poor, and toxic, for the prediction of water quality. For the simulation and evaluation of the developed FIS, MATLAB Simulink was used. Results of this study can be integrated with a feedback system for appropriate treatments including filtering, aeration, and water flushing to maintain safe environment for Nile tilapia.

Topics & Concepts

Water qualityAquacultureNile tilapiaFuzzy logicComputer scienceEnvironmental scienceMATLABTilapiaAdaptive neuro fuzzy inference systemFuzzy control systemFish <Actinopterygii>FisheryArtificial intelligenceEcologyOreochromisBiologyOperating systemWater Quality Monitoring TechnologiesInnovations in Aquaponics and Hydroponics SystemsAquaculture Nutrition and Growth
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