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Bio-mechanisms of swimming and flying : fluid dynamics, biomimetic robots, and sports science / Naomi Kato, Shinji Kamimura (Eds.)

Contributor(s): Kamimura, Shinji | Kato, Naomi.
Material type: materialTypeLabelBook; Format: print Publisher: Tokyo : Springer, 2008Description: XIV, 403 p. : il. ; 24 cm.ISBN: 978-4-431-73379-9.Subject(s): Biomecánica | Robotica | Bioinformática | Ciencias de la vida | Inteligencia artificial
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Item type Home library Call number Status Loan Date due Barcode Item holds
Monografías 03. BIBLIOTECA INGENIERÍA PUERTO REAL
681.5/KAT/bio (Browse shelf) Checked out PREST. LIBROS 31/01/2020 3742946361
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Bibliografía

Biomechanics studies of animals in swimming and flying can serve an increasing role in understanding the mechanisms that enable animals to move effectively and efficiently in fluid, as well as analyzing the characteristics of their various forms of behavior in fluid. The rich variety of mechanisms employed by swimming and flying organisms has long been an inspiration for engineers and scientists. These areas of research, which form the basis of this volume, include the locomotive mechanisms and behaviors of animals in swimming and flying ranging from microorganisms to dolphins from the biological aspect, hydrodynamics of swimming and flying, biomimetic swimming or flying robots, and sports science. This book follows {u2A6F}-mechanisms of Animals in Swimming and Flying ̕published in 2004 including 11 chapters. This time, the book includes 31 chapters on the latest researches into natural autonomous systems and locomotion in both flying and swimming organisms. The area of sports science such as analysis and simulation of human swimming is newly added. The computational frameworks for the modeling, simulation and optimization of animals in swimming and flying demonstrate an important role in the progress of interdisciplinary work in the fields of biology and engineering. An innovative technology is exhibited for the flight of an insect size micro air vehicle. Neuronal science is not only unveiling the locomotion mechanisms of swimming in fish from the aspect of the neuronal activities, but also applied to underwater biomimetic robots. The interdisciplinary works are exhibited in the fields of biology and engineering, yielding real-world benefits in innovative technologies

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