Hyperautomation in Precision Agriculture: Advancements and Opportunities for Sustainable Farming is the first book to focus on the integration of multiple techniques and technologies to create an ecosystem sustaining approach that doesn’t compromise soil health or environmental safety as it increases crop yield. The book highlights the integration of state-of-the-art tools and working models to address the various challenges in the field of agriculture. It also identifies and discusses the potential and challenges of hyperautomation in sustainable agriculture with respect to efficiency…mehr
Hyperautomation in Precision Agriculture: Advancements and Opportunities for Sustainable Farming is the first book to focus on the integration of multiple techniques and technologies to create an ecosystem sustaining approach that doesn’t compromise soil health or environmental safety as it increases crop yield. The book highlights the integration of state-of-the-art tools and working models to address the various challenges in the field of agriculture. It also identifies and discusses the potential and challenges of hyperautomation in sustainable agriculture with respect to efficiency improvement and human enhancement of automated operations. Hyperautomation is a true digital transformation in sustainable agriculture utilizing advanced techniques such as robotic process automation (RPA), digital process automation (DPA), unmanned aerial vehicle (UAV), controlled-environment agriculture (CEA), remote sensing, internet of things (IoT), crop modeling, precision farming, sustainable yield, image analysis, data fusion, artificial intelligence (AI), machine learning (ML), and deep learning (DL).Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Section I: Fundamentals of Hyperautomation technology for sustainable agriculture 1. A global overview and the fundamentals of sustainable agriculture 2. Smart Contracts for Efficient Resource Allocation and Management in Hyperautomated Agriculture Information Systems 3. Towards Smart Farming: Applications of Artificial Intelligence and Internet of Things in Precision Agriculture 4. Hyperautomation in agriculture sector by technological devices towards irrigation, crop harvest and storage 5. AI-Powered Agriculture and Sustainable Practices in Developing Countries Section II: Smart agriculture automation using advanced technologies 6. A light-weight Deep Learning model for plant disease detection in hyperautomation 7. Mapping and Retrieval of Agricultural Parameters using Artificial Intelligence 8. Sustainable Plant Disease Protection Using Machine Learning and Deep Learning 9. Cereal crop yield prediction using machine learning techniques 10. Estimation of soil properties for sustainable crop production using multisource data fusion Section III: Advances in remote sensing for precision crop production 11. Detecting the stages of Ragi crop diseases using satellite data in villages of Nanjangud taluk 12. Soil and field analysis using unmanned aerial vehicles (UAV) for smart and sustainable farming 13. Crop Land Assessment with Deep Neural Network using Hyperspectral Satellite Dataset 14. Development of Soil moisture maps using image fusion of MODIS and optical dataset 15. Advance remote sensing technologies for crop disease and pest detection 16. Estimating Soil Moisture in Semi-Arid Areas for Winter Wheat Using Sentinel-1 and Support Vector Algorithms Section IV: Robotic/Digital Process Automation (RPA/DPA) in agriculture and field applications 17. Autonomous Robotic Leaf Retrieval 18. Robotics-assisted precision and sustainable irrigation, harvesting and fertilizing processes 19. Computer Vision Technology for Weed Detection 20. LiDAR/RADAR robots in monitoring and mapping crop growth for sustainable crop production Section V: Emerging trends and case studies in Hyperautomation of Sustainable Agriculture 21. Is Hyper-automation is playing a significant role in Smart Agriculture? 22. Predictive Irrigation: Current practice and Future Prospects 23. Design and fabrication of quad copter for agriculture seeding 24. hallenges and future trends in the Hyperautomation of Sustainable Agriculture 25. Techniques and applications of deep learning in smart agriculture systems 26. Investigation of Automated Plant disease detection Framework using Machine Learning Classifier with novel Segmentation and Feature Extraction Strategy 27. Hyperautomation in precision agriculture using different unmanned aerial vehicles (UAV) 28. Emerging Trends of hyperautomation in decision-making process & sustainable crop production 29. Remote sensors for hyper-automation in agriculture
Section I: Fundamentals of Hyperautomation technology for sustainable agriculture 1. A global overview and the fundamentals of sustainable agriculture 2. Smart Contracts for Efficient Resource Allocation and Management in Hyperautomated Agriculture Information Systems 3. Towards Smart Farming: Applications of Artificial Intelligence and Internet of Things in Precision Agriculture 4. Hyperautomation in agriculture sector by technological devices towards irrigation, crop harvest and storage 5. AI-Powered Agriculture and Sustainable Practices in Developing Countries Section II: Smart agriculture automation using advanced technologies 6. A light-weight Deep Learning model for plant disease detection in hyperautomation 7. Mapping and Retrieval of Agricultural Parameters using Artificial Intelligence 8. Sustainable Plant Disease Protection Using Machine Learning and Deep Learning 9. Cereal crop yield prediction using machine learning techniques 10. Estimation of soil properties for sustainable crop production using multisource data fusion Section III: Advances in remote sensing for precision crop production 11. Detecting the stages of Ragi crop diseases using satellite data in villages of Nanjangud taluk 12. Soil and field analysis using unmanned aerial vehicles (UAV) for smart and sustainable farming 13. Crop Land Assessment with Deep Neural Network using Hyperspectral Satellite Dataset 14. Development of Soil moisture maps using image fusion of MODIS and optical dataset 15. Advance remote sensing technologies for crop disease and pest detection 16. Estimating Soil Moisture in Semi-Arid Areas for Winter Wheat Using Sentinel-1 and Support Vector Algorithms Section IV: Robotic/Digital Process Automation (RPA/DPA) in agriculture and field applications 17. Autonomous Robotic Leaf Retrieval 18. Robotics-assisted precision and sustainable irrigation, harvesting and fertilizing processes 19. Computer Vision Technology for Weed Detection 20. LiDAR/RADAR robots in monitoring and mapping crop growth for sustainable crop production Section V: Emerging trends and case studies in Hyperautomation of Sustainable Agriculture 21. Is Hyper-automation is playing a significant role in Smart Agriculture? 22. Predictive Irrigation: Current practice and Future Prospects 23. Design and fabrication of quad copter for agriculture seeding 24. hallenges and future trends in the Hyperautomation of Sustainable Agriculture 25. Techniques and applications of deep learning in smart agriculture systems 26. Investigation of Automated Plant disease detection Framework using Machine Learning Classifier with novel Segmentation and Feature Extraction Strategy 27. Hyperautomation in precision agriculture using different unmanned aerial vehicles (UAV) 28. Emerging Trends of hyperautomation in decision-making process & sustainable crop production 29. Remote sensors for hyper-automation in agriculture
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