Explores the transformative potential of ML technologies in agriculture. It delves into specific applications, such as crop monitoring, disease detection, and livestock management, demonstrating how AI/ML can optimize resource management and improve overall productivity in farming practices.
This book explores the transformative potential of ML technologies in agriculture. It delves into specific applications, such as crop monitoring, disease detection, and livestock management, demonstrating how AI/ML can optimize resource management and improve overall productivity in farming practices.
Sustainable Farming through Machine Learning: Enhancing Productivity and Efficiency provides an in-depth overview of AI and ML concepts relevant to the agricultural industry. It discusses the challenges faced by the agricultural sector and how AI/ML can address them. The authors highlight the use of AI/ML algorithms for plant disease and pest detection and examine the role of AI/ML in supply chain management and demand forecasting in agriculture. It includes an examination of the integration of AI/ML with agricultural robotics for automation and efficiency. They also cover applications in livestock management, including feed formulation and disease detection, they also explore the use of AI/ML for behavior analysis and welfare assessment in livestock. Finally, the authors also explore ethical and social implications of using such technologies.
This book can be used as a textbook for students in agricultural engineering, precision farming, and smart agriculture. It can also be a reference book for practicing professionals in machine learning, and deep learning working on sustainable agriculture applications.
1. Exploring AI and ML Strategies for Crop Health Monitoring and
Management.
2. Enhancing Crop Productivity by Suitable Crop Prediction Using
Cutting-Edge Technologies.
3. Crop Yield Prediction Using Machine Learning
Random Forest Algorithm.
4. A multi-objective based genetic approach for
increasing crop yield on sustainable farming.
5. Drones For Crop Monitoring
And Analysis.
6. Decision Support System For Sustainable Farming.
7.
Empowering Agriculture: Harnessing the Potential of AI-Driven Virtual Tutors
for Farmer Education and Investment Strategies.
8. Enhancing Agricultural
Ecosystem Surveillance through Autonomous Sensor Networks.
9. Crop Disease
Detection Using Image Analysis.
10. Automated Detection of Plant Diseases
Utilizing Convolutional Neural Networks.
11. Apple Leaves Diseases Detection
Using Deep Learning. 12.Optimizing Agricultural Yield: Comprehensive
Approaches for Recommendation System in Precision Agriculture.
13.
Advancements in Precision Agriculture: A Machine Learning-based Approach for
Crop Management Optimization.
14. Precision Agriculture with Remote Sensing:
Integrating Deep Learning for Crop Monitoring.
15. Farmers Guide: Data-Driven
Crop Recommendations for Precision and Sustainable Agriculture Using IoT and
ML.
16. Application of Machine Learning in the Analysis and Prediction of
Animal Disease.
17. Transforming Indian Agriculture: A Machine Learning
Approach for Informed Decision-Making and Sustainable Crop Recommendations.
18. Automated Detection of Water Quality for Smart Systems using Various
Sampling Techniques - An Agricultural Perspective.
19. Scope of Artificial
Intelligence (A.I.) in Agriculture Sector and its applicability in Farm
Mechanization in Odisha.
20. Ethical Considerations and Social Implications.
Suneeta Satpathy, PhD, is an Associate Professor in the Center for AI & ML, Siksha O Anusandhan (Deemed to be) University, Odisha, India. Her research interests include computer forensics, cyber security, data fusion, data mining, big data analysis, decision mining, and machine learning. She has published papers in many international journals and conferences in repute. She has two Indian patents to her credit and is a member of IEEE, CSI, ISTE, OITS, and IE.
Bijay Kumar Paikaray, PhD, is an Associate Professor at the Center for Data Science, Siksha O Anusandhan (Deemed to be) University, Odisha. His interests include high- performance computing, information security, machine learning, and IoT.
Ming Yang has a PhD in Computer Science from Wright State University, Dayton, Ohio, US, 2006. Currently he is a Professor in the College of Computing and Software Engineering Kennesaw State University, GA, USA. His research interests include multimedia communication, digital image/ video processing, computer vision, and machine learning.
Arunkumar Balakrishnan, PhD, holds the position of Assistant Professor Senior Grade in the Computer Science and Engineering department at VIT- AP University. He obtained his PhD in Information Science and Engineering from Anna University, Chennai. He possesses 12 years of academic expertise and an additional 6 years of concurrent research experience in the domains of Cryptography, Medical Image Security, Blockchain, and NFT. His research interests encompass Cryptography, Network Security, Medical Image Encryption, Blockchain, lightweight cryptography methods, and NFT.
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