Bioproduction engineering : automation and precision agronomics for sustainable agricultural systems

Crop production varies spatially and temporally within the field boundaries depending on soil and environmental conditions. The major concern of variability for agronomic inputs addresses how best to intervene in the right place, at the right time and in the right quantity to improve the potential yield of crops and feedstock. This book addresses the important question of how large a role bioproduction and renewable energy can play in achieving sustainable agricultural practices in the present system of agricultural production. Agronomy is local, which brings the challenges to the remote optimisation of agricultural machinery operations for seeding, fertilising, crop protecting, and harvesting in the field level to adopt precise agriculture technologies. Cloud computing and big data analytics bring the potential about in machine optimisation and agronomy to enable the site-specific management. Understanding bioproduction engineering and development can help improve the efficiency of a sustainable agriculture system. With the aim of understanding this process, this book focuses on bioproduction and sustainability issues, covering sensors, agricultural decision-making systems and the relationship between bioproduction and sustainable practices of agriculture. The chapters are organised as follows: information oriented technology that can be implemented to address the variability of bioproduction systems, sensors and control systems, precision agricultural technology, decision support systems in agriculture, renewable energy resources and analytical hierarchy processes for agricultural management. The crop growth monitoring parameters like LAI and NDVI points were clarified in the pre-processing stage of images. The decisions and logistics that influence the market prices of agricultural products is emphasised within the revised edition of this book.

• Foreword
• Preface
• Bioproduction Engineering
• Sensors for Intelligent Systems in Agriculture
• Control & Navigation for Intelligent Systems in Agriculture
• Sensors for Monitoring Agricultural Productivity
• Spectral Imagery & Remote Sensing in Agriculture
• GIS & Decision Support Systems in Agriculture
• System Design for Renewable Energy Resources in Agriculture
• System Hierarchy for Determining the Potential of Renewable Energy in Agriculture
• References
• Index.