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Advanced Automation for Tree Fruit Orchards and Vineyards: Agriculture Automation and Control

Editat de Stavros G. Vougioukas, Qin Zhang
en Limba Engleză Hardback – 22 apr 2023
Modern tree fruit orchards and vineyards constitute complex production systems that are exposed to highly dynamic and stochastic natural, financial and societal forces, and face demands for increased production using fewer resources, with reduced environmental impact. Successful operation of orchards and vineyards under these conditions is practically impossible without careful and extensive use of state-of-the-art automation technologies and careful planning of future operations (e.g., training systems when replanting) that can be enabled by knowledge of emerging technologies and future trends. Also, improvement of existing automation technologies and development of novel future systems cannot be accomplished without a working understanding of the tree and vine biological production systems, their management needs, and the capabilities and limitations of existing automation systems. The book aims to provide the necessary knowledge to achieve the above goals in a way that can engage readers without engineering or horticultural backgrounds. 

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Specificații

ISBN-13: 9783031269400
ISBN-10: 3031269403
Pagini: 241
Ilustrații: VII, 241 p. 1 illus.
Dimensiuni: 155 x 235 mm
Greutate: 0.53 kg
Ediția:2023
Editura: Springer International Publishing
Colecția Springer
Seria Agriculture Automation and Control

Locul publicării:Cham, Switzerland

Cuprins

Fundamentals of Tree and Vine Physiology.- Mechanical Management of Modern Planar Fruit Tree Canopies.- Orchard Water Management.- Vineyard Water Management.- Pests and diseases management.- Advanced Technologies for Crop-load Management.- Mechanical Harvesting.- Autonomous Platforms.- Management Information Systems and Emerging Technologies.- Economic and Societal Aspects.

Notă biografică

Dr. Stavros G. Vougioukas is a Professor in the Department of Biological and Agricultural Engineering at the University of California, Davis. He received his Diploma in Electrical Engineering from Aristotle University, Greece. Under a Fulbright fellowship, he received an M.S. degree in Electrical and Computer Engineering from the State University of New York at Buffalo and a Ph.D. degree in Electrical, Computer, and Systems Engineering from Rensselaer Polytechnic Institute. Before joining UC Davis, he worked as a post-doctoral researcher at the Department of Industrial Engineering at the University of Parma, Italy, and as faculty at Aristotle University, Greece. At UC Davis, he teaches courses on engineering design, instrumentation and control, and agricultural robotics. His research interests lie in the areas of robotics, mechanization, and automation for agriculture, with an emphasis on labor-saving technologies for specialty crops. He is the Director of the Bio-Automation Lab and leads several research projects in the areas listed above with funding from federal agencies, grower commodity boards, and industry. He has authored or co-authored 50+ peer-reviewed journal articles and 90+ conference papers. He is currently serving as Associate Editor for the Biosystems Engineering journal and is a Senior member of the IEEE (Institute of Electrical and Electronics Engineers) and a member of the ASABE (American Society of Agricultural and Biological Engineers).

Dr. Qin Zhang is the Director of the Center for Precision and Automated Agricultural Systems (CPAAS) and a Professor of Agricultural Automation in the Department of Biological Systems Engineering, Washington State University (WSU); and a Member of Washington State Academy of Science (WSAS). He received his B.S. degree in engineering from Zhejiang Agricultural University, China; M.S. degree from the University of Idaho and Ph.D. degree from the University of Illinois at Urbana-Champaign. His current research interests include agricultural cybernetics, agricultural mechanization and robotization, and mobile equipment mechatronics. Based on his research outcomes, he has authored/edited 11 books, written 28 separate book chapters, edited three conference proceedings, published 190+ peer reviewed journal articles, 60+ other peer reviewed articles, and been awarded 12 U.S. patents. He is currently serving as the Chair Editor for Computers and Electronics in Agriculture, and the Editor-in-Chief for the Springer Encyclopedia of Smart Agriculture Technologies. Dr. Qin Zhang has also been invited to give 20 keynote speeches and 36 invited talks at international professional conferences, plus numerous invited seminars and guest lectures at 60+ universities and research institutes worldwide. He has also given talks at more than a dozen major agricultural equipment manufacturers in the North/South America, Europe, and Asia. Dr. Qin Zhang is a Fellow of iAABE (International Academy of Agricultural and Biological Engineering) and ASABE (American Society of Agricultural and Biological Engineers), an Honorary Vice President of CIGR (International Commission of Agricultural and Biological Engineering), a Full Member of the Club of Bologna (a World Task-force on the Strategies for the Development of Agricultural Mechanization), and is serving or served as a guest or an adjunct professor for nine universities in different countries. He has received several awards and honors over the years, featured by John Deere Gold Medal, a major award to agricultural and biological engineers for distinguished achievement in the application of science and art to the soil in 2017.

Textul de pe ultima copertă

Modern tree fruit orchards and vineyards constitute complex production systems that are exposed to highly dynamic and stochastic natural, financial and societal forces, and face demands for increased production using fewer resources, with reduced environmental impact. Successful operation of orchards and vineyards under these conditions is practically impossible without careful and extensive use of state-of-the-art automation technologies and careful planning of future operations (e.g., training systems when replanting) that can be enabled by knowledge of emerging technologies and future trends. Also, improvement of existing automation technologies and development of novel future systems cannot be accomplished without a working understanding of the tree and vine biological production systems, their management needs, and the capabilities and limitations of existing automation systems. The book aims to provide the necessary knowledge to achieve the above goals in a way that can engage readers without engineering or horticultural backgrounds. 

Caracteristici

Addresses the fundamentals of automation for management of orchards and vineyards, in a systematic, integrated manner Covers basic tree and vine physiology, along with the principles of automation and robotics, and cutting-edge examples A reference book for students, researchers, engineers, policy makers, farmers and other stakeholders