Digital Twins, Artificial Intelligence, and Internet of Things for a Sustainable Food Production in Agriculture: Transformative Technologies looks at how advanced technologies like digital twins, artificial intelligence (AI), and the Internet of Things (IoT) can be used in farming.
Digital Twins, Artificial Intelligence, and Internet of Things for a Sustainable Food Production in Agriculture: Transformative Technologies looks at how advanced technologies like digital twins, artificial intelligence (AI), and the Internet of Things (IoT) can be used in farming.
The book discusses how these innovations enhance resource efficiency, support sustainable food systems, and improve crop and livestock management. Focusing on both the theoretical and practical applications, it provides readers with current insight into sustainable agricultural practices. It also offers insights into how digital twins, AI, and IoT are integrated into agriculture for sustainable food production. The book will cover how digital copies of farms, smart computers, AI, IoT, and connected devices help farmers optimise food production. It draws its strength from a multidisciplinary approach with an emphasis on practical applications and future prospects in smart agriculture towards improved efficiency, sustainability, and profitability in food production.
This book is suitable for a broad academic audience, including undergraduate and graduate students, researchers, and professionals in fields such as agricultural science, environmental science, computer science, and engineering, as well as policymakers and government functionaries. It is meant to be used as a textbook or additional reading for courses on precision farming, smart agriculture, and sustainable food systems. The content is designed to be understandable to people who have just a cursory understanding of technology and agriculture, but it also provides in-depth analysis for practitioners and advanced students.
List of Illustrations. List of Tables.
1. Digital Revolution in
Sustainable Agricultural Practices: Overview, Current Trends, and Sustainable
Development Goals
2. Applications of Digital Twins for Sustainable Farming
3.
Innovative Agricultural Practices Using Artificial Intelligence for
Sustainable Crop and Livestock Farming
4. Smart Internet of Things Sensors
and Devices for Sustainable Agriculture
5. Developing a Sustainable Food
Production Synergy with Artificial Intelligence, Internet of Things, and
Digital Twins
6. Challenges, Opportunities, and Future of Smart Agriculture.
Index
Akinola Samson Olayinka is a Professor of Computational and Applied Physics and the immediate past Dean of the Faculty of Science at Edo State University Iyamho, Nigeria. His research spans computational physics, applied physics, machine learning, data science, Internet of Things applications, materials science, and educational technology. He is a PhET Fellow at the University of Colorado Boulder, United States, and a LabXchange Ambassador. He serves as an external reviewer for international research funding agencies, including the Slovak Research and Development Agency (APVV), and contributes as a reviewer and editor for multiple academic journals and scholarly publishers. He has authored and coauthored numerous peer reviewed publications.
Kingsley Eghonghon Ukhurebor is a Senior Lecturer/Researcher (due for an Associate Professor) and acting Director, Centre for Open and Distance Learning and former acting Head of the Department of Physics at Edo State University Iyamho, Nigeria. He is also a Research Fellow at WASCAL, Competence Centre, Ouagadougou, Burkina Faso. His research interests include applied physics, climate physics, environmental physics, telecommunications physics, and materials science (nanotechnology). He is currently ranked among the top 50 authors in Nigeria by Scopus scholarly output and is listed among the top 2% of scientists in the world by Stanford University, USA, and Elsevier.
Uyiosa Osagie Aigbe is a former Research Fellow with the Department of Mathematics and Physics, Faculty of Applied Science, Cape Peninsula University of Technology, Cape Town, and South Africa. He is currently an Ad-Hoc Research Fellow with the Center for Space Research and the National Institute of Theoretical and Computational Science, South Africa. His research interests are in applied physics, nanotechnology, fluid dynamics, water purification processes, image processing, environmental physics, machine learning, statistical analysis, and materials science.
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