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Animal mechanics. --- Animal movements (Physiology) --- Body mechanics, Animal --- Movements of animals (Physiology) --- Biomechanics --- Physiology
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Biomembranes --- General biophysics --- membranen (biologie) --- biofysica --- Animal mechanics. --- Biophysics. --- Biological physics --- Biology --- Medical sciences --- Physics --- Animal movements (Physiology) --- Body mechanics, Animal --- Movements of animals (Physiology) --- Biomechanics --- Physiology
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"A thorough understanding of the form, function, and design of animals is essential to any working biologist's knowledge. In the author's view, however, this fast-growing field of study can be made much more exciting and accessible with a hands-on, practical approach. This is the view of A Practical Guide to Vertebrate Mechanics." "This text can be considered an engineering book for biologists. The emphasis is on vertebrates, and each topic begins with a discussion of the underlying principles, followed immediately by practical experiments and laboratory exercises." "What sets this book apart from others on functional anatomy is its emphasis on practical work. Many of the experiments are simple to conduct. Detailed instructions for setting up the experiments are given in an appendix, and sample results are included to guide the student." "A Practical Guide to Vertebrate Mechanics will form an important part of undergraduate and beginning graduate courses for zoology, anatomy, biomechanics, and paleontology students."--Jacket.
Animal physiology. Animal biophysics --- Vertebrates --- Animal mechanics. --- Vertébrés --- Mécanique animale --- Morphology. --- Physiology. --- Morphologie --- Physiologie --- Animal movements (Physiology) --- Body mechanics, Animal --- Movements of animals (Physiology) --- Biomechanics --- Physiology --- Vertebrata --- Chordata --- Vertébrés --- Mécanique animale --- Animal mechanics --- Morphology
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Animal physiology. Animal biophysics --- Zoomorphology. Zooanatomy --- Animal ethology and ecology. Sociobiology --- ZV General Zoology --- Animal mechanics. --- Bioengineering. --- Biophysics. --- Animal mechanics --- Bioengineering --- Biophysics --- Biological physics --- Biology --- Medical sciences --- Physics --- Biological engineering --- Life science engineering --- Engineering --- Synthetic biology --- Animal movements (Physiology) --- Body mechanics, Animal --- Movements of animals (Physiology) --- Biomechanics --- Physiology
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Animal mechanics --- Animal movements --- Animals [Movements of ] --- Body mechanics [Animal ] --- Dierlijke mechanica --- Mechanica [Dierlijke ] --- Movements of animals --- Mécanique animale --- Dinosaurs --- Locomotion --- Extinct animals --- Extirpated animals --- Extirpated species --- Locally extinct animals --- Locally extinct species --- Dinosauria --- Animal movements (Physiology) --- Body mechanics, Animal --- Movements of animals (Physiology) --- Animals --- Extinction (Biology) --- Reptiles, Fossil --- Biomechanics --- Physiology
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Animaux --- Animal migration. --- Migration --- Animal mechanics. --- 591.5 --- Animal movements (Physiology) --- Body mechanics, Animal --- Movements of animals (Physiology) --- Biomechanics --- Physiology --- Animals --- Migration of animals --- Animal behavior --- Zoogeography --- Migratory animals --- Animal habits. Animal behaviour. Ecology. Ethology. Animal and environment. Bionomy --- 591.5 Animal habits. Animal behaviour. Ecology. Ethology. Animal and environment. Bionomy --- Animal ethology and ecology. Sociobiology --- Migration. --- Animal migration --- Animal mechanics
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• Motivation It is our dream to understand the principles of animals’ remarkable ability for adaptive motion and to transfer such abilities to a robot. Up to now, mechanisms for generation and control of stereotyped motions and adaptive motions in well-known simple environments have been formulated to some extentandsuccessfullyappliedtorobots.However,principlesofadaptationto variousenvironmentshavenotyetbeenclari?ed,andautonomousadaptation remains unsolved as a seriously di?cult problem in robotics. Apparently, the ability of animals and robots to adapt in a real world cannot be explained or realized by one single function in a control system and mechanism. That is, adaptation in motion is induced at every level from thecentralnervoussystemtothemusculoskeletalsystem.Thus,weorganized the International Symposium on Adaptive Motion in Animals and Machines(AMAM)forscientistsandengineersconcernedwithadaptation onvariouslevelstobebroughttogethertodiscussprinciplesateachleveland to investigate principles governing total systems. • History AMAM started in Montreal (Canada) in August 2000. It was organized by H. Kimura (Japan), H. Witte (Germany), G. Taga (Japan), and K. Osuka (Japan), who had agreed that having a small symposium on motion control, with people from several ?elds coming together to discuss speci?c issues, was worthwhile. Those four organizing committee members determined the scope of AMAM as follows.
Robots --- Adaptive control systems --- Animal mechanics --- Motion --- Control systems --- Animal movements (Physiology) --- Body mechanics, Animal --- Movements of animals (Physiology) --- Biomechanics --- Physiology --- Automata --- Automatons --- Manipulators (Mechanism) --- Robotics --- Mecha (Vehicles) --- Information Technology --- Artificial Intelligence --- Artificial intelligence. --- Artificial Intelligence. --- AI (Artificial intelligence) --- Artificial thinking --- Electronic brains --- Intellectronics --- Intelligence, Artificial --- Intelligent machines --- Machine intelligence --- Thinking, Artificial --- Bionics --- Cognitive science --- Digital computer simulation --- Electronic data processing --- Logic machines --- Machine theory --- Self-organizing systems --- Simulation methods --- Fifth generation computers --- Neural computers
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Animal mechanics. --- Biophysics. --- Insectes --- Vol animal --- Biomecànica --- Biofísica --- Mecànica --- Mecànica animal --- Motricitat --- Vol dels animals --- Locomoció animal --- Vol --- Hexàpodes --- Invertebrats --- Apterigots --- Coleòpters --- Col·lèmbols --- Dermàpters --- Dictiòpters --- Dípters --- Efemeròpters --- Hemípters --- Himenòpters --- Homòpters --- Insectes aquàtics --- Insectes fitòfags --- Insectes hematòfags --- Insectes paràsits --- Insectes saproxílics --- Insectes útils --- Lepidòpters --- Mal·lòfags --- Mecòpters --- Neuròpters --- Odonats --- Ortòpters --- Papallones --- Plagues d'insectes --- Plecòpters --- Puces --- Tèrmits --- Tricòpters --- Entomologia --- Biological physics --- Biology --- Medical sciences --- Physics --- Animal movements (Physiology) --- Body mechanics, Animal --- Movements of animals (Physiology) --- Biomechanics --- Physiology
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The physical principles of swimming and flying in animals are intriguingly different from those of ships and airplanes. The study of animal locomotion therefore holds a special place not only at the frontiers of pure fluid dynamics research, but also in the applied field of biomimetics, which aims to emulate salient aspects of the performance and function of living organisms. For example, fluid dynamic loads are so significant for swimming fish that they are expected to have developed efficient flow control procedures through the evolutionary process of adaptation by natural selection, which might in turn be applied to the design of robotic swimmers. And yet, sharply contrasting views as to the energetic efficiency of oscillatory propulsion – especially for marine animals – demand a careful assessment of the forces and energy expended at realistic Reynolds numbers. For this and many other research questions, an experimental approach is often the most appropriate methodology. This holds as much for flying animals as it does for swimming ones, and similar experimental challenges apply – studying tethered as opposed to free locomotion, or studying the flow around robotic models as opposed to real animals. This book provides a wide-ranging snapshot of the state-of-the-art in experimental research on the physics of swimming and flying animals. The resulting picture reflects not only upon the questions that are of interest in current pure and applied research, but also upon the experimental techniques that are available to answer them.
Animal flight. --- Animal locomotion. --- Animal swimming. --- Biophysics. --- Hydrodynamics. --- Animal swimming --- Animal flight --- Animal locomotion --- Hydrodynamics --- Biophysics --- Animal mechanics --- Engineering & Applied Sciences --- Human Anatomy & Physiology --- Applied Mathematics --- Applied Physics --- Physiology --- Health & Biological Sciences --- Animal mechanics. --- Animal movements (Physiology) --- Body mechanics, Animal --- Movements of animals (Physiology) --- Animal running --- Animal walking --- Running, Animal --- Walking, Animal --- Physics. --- Fluids. --- Biological physics. --- Fluid mechanics. --- Fluid- and Aerodynamics. --- Engineering Fluid Dynamics. --- Biophysics and Biological Physics. --- Biomechanics --- Locomotion --- Hydraulic engineering. --- Biological and Medical Physics, Biophysics. --- Engineering, Hydraulic --- Engineering --- Fluid mechanics --- Hydraulics --- Shore protection --- Biological physics --- Biology --- Medical sciences --- Physics --- Hydromechanics --- Continuum mechanics --- Mechanics --- Hydrostatics --- Permeability
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Zoomorphology. Zooanatomy --- Vertebrates --- Animal mechanics --- Morphology (Animals) --- Biomechanics --- Anatomy --- Anatomy and histology --- Physiology --- 577.3 --- 596 --- 591.17 --- 591.4 --- -Vertebrata --- Chordata --- Animal morphology --- Animals --- Body form in animals --- Zoology --- Morphology --- Animal movements (Physiology) --- Body mechanics, Animal --- Movements of animals (Physiology) --- Physical and physicochemical bases of life. Biophysics. Biophysical chemistry in general --- Vertebrata. Vertebrates in general --- Movement. Locomotion. Physiology of the skeleton and organs of locomotion --- Study of animal organs. Animal organology. Animal anatomy. Zootomy --- -Physical and physicochemical bases of life. Biophysics. Biophysical chemistry in general --- Animal mechanics. --- Morphology (Animals). --- Biomechanics. --- Anatomy and histology. --- Physiology. --- 591.4 Study of animal organs. Animal organology. Animal anatomy. Zootomy --- 591.17 Movement. Locomotion. Physiology of the skeleton and organs of locomotion --- 596 Vertebrata. Vertebrates in general --- 577.3 Physical and physicochemical bases of life. Biophysics. Biophysical chemistry in general --- -Animal morphology --- Vertebrata --- Vertebrates - Anatomy --- Vertebrates - Anatomy and histology --- Vertebrates - Physiology --- -Anatomy
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