IoT and AI in agriculture : self-sufficiency in food production to achieve society 5.0 and SDG's globally / Tofael Ahamed, editor.
Ahamed, Tofael, editor.
2023
S494.5.I5 I68 2023
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Title IoT and AI in agriculture : self-sufficiency in food production to achieve society 5.0 and SDG's globally / Tofael Ahamed, editor.
ISBN 9789811981135 (electronic bk.)
9811981132 (electronic bk.)
9789811981128
9811981124
DOI https://doi.org/10.1007/978-981-19-8113-5
Published Singapore : Springer, [2023]
Language English
Description 1 online resource (141 pages) : illustrations (black and white, and color).
Item Number 10.1007/978-981-19-8113-5 doi
Call Number S494.5.I5 I68 2023
Dewey Decimal Classification 630.20854678
Summary This book reviews recent innovations in the smart agriculture space that use the Internet of Things (IoT) and sensing to deliver Artificial Intelligence (AI) solutionsto agricultural productivity in the agricultural production hubs. In this regard, South and Southeast Asia are one of the major agricultural hubs of the world, facing challenges of climate change and feeding the fast-growing population. To addresssuch challenges, a transboundary approach along with AI and BIG data for bioinformatics are required to increase yield and minimize pre- and post-harvest losses in intangible climates to drive the sustainable development goal (SDG) for feeding a major part of the 9 billion population by 2050 (Society 5.0 SDG 1 & 2). Therefore, this book focuses on the solution through smart IoT and AI-based agriculture including pest infestation and minimizing agricultural inputs for in-house and fields production such as light, water, fertilizer and pesticides to ensure food security aligns with environmental sustainability. It provides a sound understanding for creating new knowledge in line with comprehensive research and education orientation on how the deployment of tiny sensors, AI/Machine Learning (ML), controlled UAVs, and IoT setups for sensing, tracking, collection, processing, and storing information over cloud platforms for nurturing and driving the pace of smart agriculture in this current time. The book will appeal to several audiences and the contents are designed for researchers, graduates, and undergraduate students working in any area of machine learning, deep learning in agricultural engineering, smart agriculture, and environmental science disciplines. Utmost care has been taken to present a varied range of resource areas along with immense insights into the impact and scope of IoT, AI and ML in the growth of intelligent digital farming and smart agriculture which will give comprehensive information to the targeted readers.
Access Note Access limited to authorized users.
Source of Description Description based on print version record.
Added Author Ahamed, Tofael, editor.
Available in Other Form IoT and AI in agriculture.
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Chapter 1. IoT x AI: Introducing Agricultural Innovation for Global Food Production
Chapter 2. Transforming Controlled Environment Plant Production toward Circular Bioeconomy Systems
Chapter 3. Artificial Lighting Systems for Plant Growth and Development in Indoor Farming
Chapter 4. An IoT-based Precision Irrigation System to Optimize Plant Water Requirements for Indoor and Outdoor Farming Systems
Chapter 5. Artificial Intelligence & Internet of Things: Application in Urban Water Management
Chapter 6.Purification of Agricultural Polluted Water Using Solar Distillation and Hot Water Producing with Continuous Monitoring Based on IoT
Chapter 7. Long Range Wide Area Network (LoRaWAN) for Oil Palm Soil Monitoring
Chapter 8. Application of Smart Machine Vision in Agriculture, Forestry, Fishery, and Animal Husbandry
Chapter 9. Artificial Intelligence in Agriculture: Commitment to Establish Society 5.0
Chapter 10. Potentials of Deep Learning Frameworks for Tree Trunk Detection in Orchard to Enable Autonomous Navigation System
Chapter 11. Real Time Pear Fruit Detection and Counting Using YOLOv4 Models and Deep SORT
Chapter 12. Pear Recognition in an Orchard from 3D Stereo Camera Datasets to Develop an Autonomous Mechanism Compared with Deep Learning Algorithms
Chapter 13. Thermal Imaging and Deep Learning Object Detection Algorithms for Early Embryo Detection A Methodology Development Addressed to Quail Precision Hatching
Chapter 14. Intelligent Sensing and Robotic Picking of Kiwifruit in Orchard
Chapter 15. Low-cost Automatic Machinery Development to Increase Timeliness and Efficiency of Operation for Small Scale Farmers to Achieve SDGs
Chapter 16. Vision-based Leader Vehicle Trajectory Tracking for Multiple Agricultural Vehicles
Chapter 17. Autonomous Robots in Orchard Management: Present status and future trends
Chapter 18. Comparing Soil Moisture Retrieval from Water Cloud Model and Neural Network Using PALSAR-2 for Oil Palm Estates
Chapter 19. Development of a Recognition System for Spraying Areas from Unmanned Aerial Vehicles Using a Machine Learning Approach
Chapter 20. Basal Stem Rot Disease Classification by Machine Learning Using Thermal Images and an Imbalanced Data Approach
Chapter 21. Early Detection of Plant Disease Infection using Hyperspectral Data and Machine Learning
Chapter 22. The Spectrum of Autonomous Machinery Development to Increase Agricultural Productivity for Achieving Society 5.0 in Japan.

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