In this book, the recent applications of Artificial Intelligence for smart agriculture have been gathered to provide a valuable source for the literature. Applications vary from use of Machine and Deep Learning to image processing systems. The book aims to provide information on smart methods and intense data processing phases.
In this book, the recent applications of Artificial Intelligence for smart agriculture have been gathered to provide a valuable source for the literature. Applications vary from use of Machine and Deep Learning to image processing systems. The book aims to provide information on smart methods and intense data processing phases.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Dr. Utku Kose is Associate Professor in Suleyman Demirel University, Turkey. He has more than 100 publications including articles, authored and edited books, proceedings, and reports. V.B. Surya Prasath is an assistant professor in the Division of Biomedical Informatics at the Cincinnati Children's Hospital Medical Center, and at the Departments of Biomedical Informatics, Electrical Engineering and Computer Science, University of Cincinnati from 2018. M. Rubaiyat Hossain Mondal is a faculty member at the Institute of Information and Communication Technology (IICT) in BUET, Bangladesh. He has published a number of papers in journals of IEEE, IET, Elsevier, Springer, Wiley, De Gruyter, PLOS, and MDPI. Prajoy Podder is currently a researcher at the Institute of Information and Communication Technology, Bangladesh University of Engineering and Technology. He worked as a lecturer in the department of Electrical and Electronic Engineering, Ranada Prasad Shaha University, Narayanganj, Bangladesh. Subrato Bharati is a researcher in the Institute of Information and Communication Technology, Bangladesh University of Engineering and Technology, Dhaka, Bangladesh. He is a regular reviewer of a number of international journal including Elsevier, Springer, and Wiley.
Inhaltsangabe
1. Application of Drone and Sensors in Advanced Farming: The Future Smart Farming Technology. 2. Development and Research of a Greenhouse Monitoring System. 3. A Cloud-Computing Model for Implementing Smart Agriculture. 4. Application of Conversational Artificial Intelligence for Farmer's Advisory and Communication. 5. The Use of an Intelligent Fuzzy Logic Controller to Predict the Global Warming Effect on Agriculture: The Case of Chickpea ( Cicer arietinum L.) 6. Using Machine Learning Algorithms for Mapping Soil Macronutrient Elements Variability with Digital Environmental Data in an Alluvial Plain. 7. A Smart IoT Framework for Soil Fertility Enhancement Assisted via Deep Neural Networks. 8. Plant Disease Detection with the Help of Advanced Imaging Sensors. 9. Artificial Intelligence-Aided Phenomics in High throughput Stress Phenotyping of Plants. 10. Plant Disease Detection using Hybrid Deep Learning Architecture in Smart Agriculture Application. 11. Classification of Coffee Leaf Diseases through Image Processing Techniques. 12. The Use of Artificial Intelligence to Model Oil Extraction Yields from Seeds and Nuts. 13. Applications of Artificial Intelligence in Pest Management. 14. Applying Clustering Technique for Rainfall Received by Different District of Maharashtra State. 15. Predicting Rainfall for Aurangabad Division of Maharashtra by Applying Auto-Regressive Moving Average Model (ARIMA) Using Python Programming.
1. Application of Drone and Sensors in Advanced Farming: The Future Smart Farming Technology. 2. Development and Research of a Greenhouse Monitoring System. 3. A Cloud-Computing Model for Implementing Smart Agriculture. 4. Application of Conversational Artificial Intelligence for Farmer's Advisory and Communication. 5. The Use of an Intelligent Fuzzy Logic Controller to Predict the Global Warming Effect on Agriculture: The Case of Chickpea ( Cicer arietinum L.) 6. Using Machine Learning Algorithms for Mapping Soil Macronutrient Elements Variability with Digital Environmental Data in an Alluvial Plain. 7. A Smart IoT Framework for Soil Fertility Enhancement Assisted via Deep Neural Networks. 8. Plant Disease Detection with the Help of Advanced Imaging Sensors. 9. Artificial Intelligence-Aided Phenomics in High throughput Stress Phenotyping of Plants. 10. Plant Disease Detection using Hybrid Deep Learning Architecture in Smart Agriculture Application. 11. Classification of Coffee Leaf Diseases through Image Processing Techniques. 12. The Use of Artificial Intelligence to Model Oil Extraction Yields from Seeds and Nuts. 13. Applications of Artificial Intelligence in Pest Management. 14. Applying Clustering Technique for Rainfall Received by Different District of Maharashtra State. 15. Predicting Rainfall for Aurangabad Division of Maharashtra by Applying Auto-Regressive Moving Average Model (ARIMA) Using Python Programming.
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