Machine Learning in Aquaculture (eBook)

This book highlights the fundamental association between aquaculture and engineering in classifying fish hunger behaviour by means of machine learning techniques. Understanding the underlying factors that affect fish growth is essential, since they have implications for higher productivity in fish farms. Computer vision and machine learning techniques make it possible to quantify the subjective perception of hunger behaviour and so allow food to be provided as necessary. The book analyses the conceptual framework of motion tracking, feeding schedule and prediction classifiers in order to classify the hunger state, and proposes a system comprising an automated feeder system, image-processing module, as well as machine learning classifiers. Furthermore, the system substitutes conventional, complex modelling techniques with a robust, artificial intelligence approach. The findings presented are of interest to researchers, fish farmers, and aquaculture technologist wanting to gain insights into the productivity of fish and fish behaviour.

Mr. Mohd Azraai Mohd Razman graduated his first degree from the University of Sheffield, United Kingdom, in Mechatronics Engineering in 2010. He then obtained his M.Eng. by 2014 from Universiti Malaysia Pahang (UMP) in Mechatronics Engineering and currently pursuing his Ph.D. at UMP as well. He did his visiting Ph.D. at University of Padova, Italy, in 2018 where he focuses on computer vision and machine learning. His research interests include optimization techniques, control systems, signal processing, instrumentation in aquaculture, sports engineering, as well as machine learning.

Dr. Anwar P.P. Abdul Majeed graduated with a first-class honours B.Eng. in Mechanical Engineering from Universiti Teknologi MARA (UiTM), Malaysia. He obtained an M.Sc. in Nuclear Engineering from Imperial College London, United Kingdom. He then received his Ph.D. in Rehabilitation Robotics under the supervision of Prof. Dr. Zahari Taha from Universiti Malaysia Pahang (UMP). He is currently serving as a senior lecturer at the Faculty of Manufacturing and Mechatronics Engineering Technology, UMP. He is an active research member at the Innovative Manufacturing, Mechatronics and Sports Laboratory, UMP. His research interests include rehabilitation robotics, computational mechanics, applied mechanics, sports engineering, renewable and nuclear energy, sports performance analysis, as well as machine learning.

Dr Rabiu Muazu Musa holds a Ph.D. degree from Universiti Sultan Zainal Abidin (UniSZA), Malaysia. He obtained his M.Sc. in Sports Science from UniSZA in 2015 and his B.Sc. in Physical and Health Education at Bayero University, Kano, Nigeria, in 2011. His Ph.D. research focuses on the development of multivariate and machine learning models for athletic performance. His research interests include performance analysis, health promotion, sports psychology, exercise science, talent identification, test, and measurement, as well as machine learning. He is currently a lecturer at the Centre for Fundamental and Liberal Education, Universiti Malaysia Terengganu.

Dr. Zahari Taha graduated with a B.Sc. in Aeronautical Engineering with Honours from the University of Bath, United Kingdom. He obtained his Ph.D. in Dynamics and Control of Robots from the University of Wales Institute of Science and Technology in 1987. He is the founder and advisor of the Innovative Manufacturing, Mechatronics and Sports Laboratory (IMAMS), UMP, and formerly a Professor at the Faculty of Engineering, Universiti Malaya, and Faculty of Manufacturing Engineering, UMP. Dr Zahari teaches and conducts research in the areas of industrial automation, robotics, ergonomics, sustainable manufacturing, machine learning, and sports engineering and provides consultation and training under Dzuki Consultancy and Training.

Prof. Gian Antonio Susto received the M.S. degree (cum laude) in control systems engineering and the Ph.D. degree in information engineering from the University of Padova, Padua, Italy, in 2009 and 2013, respectively. He was a Visiting Student with the University of California San Diego, San Diego, CA, USA, and the National University of Ireland (NUIM), Maynooth, Ireland, an Intern Researcher with Infineon Technologies Austria AG, Villach, Austria, and a Postdoctoral Associate with NUIM in 2013. He is currently an Assistant Professor with the University of Padova and the co-founder of Statwolf Ltd., Dublin, Ireland. His current research interests include deep and machine learning, industry 4.0, activity/gesture recognition, and natural language processing. Dr. Susto received the IEEE-CASE Best Student Conference Paper Award in 2011, the IEEE/SEMI-ASMC Best Student Paper Award in 2012, and the IEEE-MSC Best Student Paper Award in 2012.

Dr Yukinori Mukai obtained his B.Sc. and M.Sc. in Kagoshima University, Japan, and Ph.D. degree from Kinki University, Japan. He studied fish larvae and their sensory organs in order to improve larval rearing methods. He then became a lecturer of Aquaculture Course in Universiti Malaysia Sabah (UMS). He is currently an Associate Professor since 2011 in the Department of Marine Science, Kulliyyah of Science, International Islamic University Malaysia (IIUM). He has studied demand feeding system, optimum light wavelength and intensity for larval and juvenile rearing, infusoria culture as live feed, and genetic diversity in wild fish and has cultured fishes in UMS and IIUM.

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This book highlights the fundamental association between aquaculture and engineering in classifying fish hunger behaviour by means of machine learning techniques. Understanding the underlying factors that affect fish growth is essential, since they have implications for higher productivity in fish farms. Computer vision and machine learning techniques make it possible to quantify the subjective perception of hunger behaviour and so allow food to be provided as necessary. The book analyses the conceptual framework of motion tracking, feeding schedule and prediction classifiers in order to classify the hunger state, and proposes a system comprising an automated feeder system, image-processing module, as well as machine learning classifiers. Furthermore, the system substitutes conventional, complex modelling techniques with a robust, artificial intelligence approach. The findings presented are of interest to researchers, fish farmers, and aquaculture technologist wanting to gain insights into the productivity of fish and fish behaviour.