Agricultural automation is the core technology for computer-aided agricultural production management and implementation. An integration of equipment, infotronics, and precision farming technologies, it creates viable solutions for challenges facing the food, fiber, feed, and fuel needs of the human race now and into the future. Agricultural Automation: Fundamentals and Practices provides a comprehensive introduction of automation technologies for agriculture.
From basics to applications, topics in this volume include:
Agricultural vehicle robots and infotronic systems
Precision agriculture, with its focus on efficiency and efficacy of agricultural inputs and the spatial and temporal management of agricultural systems
Specific agricultural production systems, including those related to field crops, cotton, orchards and vineyards, and animal housing and production
Automation relative to specific inputs in agricultural production systems, such as nutrition management and automation, automation of pesticide application systems, and automated irrigation management with soil and canopy sensing
Liability issues with regard to surrounding awareness and worksite management
Postharvest automation—perhaps the most advanced component of agricultural production in terms of automation and an important factor in global agriculture
Agricultural mechanization, one of the top ranked engineering accomplishments in the past century, has created revolutionary change in crop production technology and made it possible to harvest sufficient products to meet the population’s continuously growing needs. Continued progress is essential to the future of agriculture. This book provides an up-to-date overview of the current state of automated agriculture and important insight into its upcoming challenges.
Agricultural Automation: An Introduction; John K. Schueller
Fundamentals
Agricultural Vehicle Robot; Noboru Noguchi
Agricultural Infotronic Systems; Qin Zhang, Yongni Shao, and Francis J. Pierce
Precision Agricultural Systems; Chenghai Yang and Won Suk Lee
Practices
Field Crop Production Automation; Scott A. Shearer and Santosh K. Pitla
Mechanization, Sensing, and Control in Cotton Production; Ruixiu Sui and J. Alex Thomasson
Orchard and Vineyard Production Automation; Thomas Burks, Duke Bulanon, Kyu Suk You, Zhijiang Ni, and
Anirudh Sundararajan
Automation in Animal Housing and Production; J. L. Purswell and R. S. Gates
Nutrition Management and Automation; Yong He, Fei Liu, and Di Wu
Automation of Pesticide Application Systems; Manoj Karkee, Brian Steward, and John Kruckeberg
Automated Irrigation Management with Soil and Canopy Sensing; Dong Wang, Susan A. O’Shaughnessy, and Bradley King
Surrounding Awareness for Automated Agricultural Production; Francisco Rovira-Más
Worksite Management for Precision Agricultural Production; Ning Wang
Postharvest Automation; Naoshi Kondo and Shuso Kawamura
Index
Qin Zhang, Washington State University, Prosser, USA; Francis J. Pierce, Washington State University, Prosser, USA