DIRECTORY OF OPEN ACCESS JOURNAL
Published Article
ARTIFICIAL INTELLIGENCE DRIVEN TRANSFORMATION OF MODERN AQUACULTURE: REVIEW
ABSTRACT
Aquaculture
has undergone a rapid transition from traditional, labour intensive practices
to more intensive and intelligent production systems, driven by the need to
meet rising global demand for aquatic food in a sustainable manner. This
transformation has been supported by advances in automation and digital
technologies, which aim to address persistent challenges in aquaculture such as
inefficient resource use, high labour costs, environmental degradation, and
increasing disease risks. As aquaculture systems become more complex, conventional
management approaches are often inadequate to ensure optimal performance and
sustainability. Recent developments in automation and smart technologies,
including the Internet of Things, big data analytics, cloud computing,
artificial intelligence, and blockchain, have enabled real time monitoring,
data driven decision making, and automated control of aquaculture operations.
Artificial intelligence, in particular, has emerged as a core component of
smart aquaculture systems by providing predictive and inferential capabilities
that support efficient process control and adaptive management. Current AI
applications in aquaculture include biomass estimation, size and weight
measurement, species identification and classification, feeding optimisation,
disease detection, stock counting, and continuous water quality monitoring.
These applications have demonstrated potential benefits such as improved
production efficiency, reduced energy and water losses, lower labour
requirements, enhanced animal welfare, and better operational transparency. The
objective of this study is to review the role of automation and artificial
intelligence in modern aquaculture systems. Specifically, the study aims to
examine key digital technologies driving smart aquaculture, highlight major
application areas of artificial intelligence and machine learning, and assess
their contributions to productivity, sustainability, and management efficiency.
By synthesising recent research and practical developments, this review
provides a comprehensive overview of how intelligent technologies are reshaping
aquaculture and outlines future prospects for their wider adoption.
KEYWORDS:
Smart Aquaculture, Automation, Artificial Intelligence, Precision Fish Farming,
Automation, Aquaculture Sustainability and Digital fisheries
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