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Zusatztext "? a convenient source of examples and literature references for engineering students interested in how natural patterns can be exploited in mechanical and materials engineering. ? will be of most interest to roboticists! who can profitably exploit many of the mechanisms it describes."- Computing Reviews! June 2012 Informationen zum Autor Dr. Yoseph Bar-Cohen is the Supervisor of the Electroactive Technologies Group at JPL, as well as a Senior Scientist there. He has (co) edited 10 books, co-authored over 390 publications, co-chaired 50 conferences, and has 36 registered patents. His books and other publications cover such topics as humanlike robots, biomimetics, nondestructive evaluation using ultrasonics and robotics and materials, etc. Business Week named him in 2003 as one of the five technology gurus who are "Pushing Tech's Boundaries." He is a NASA Fellow and Honors Award Winner, has two SPIE Lifetime Achievement Awards, and is the recipient of JPL's prestigious Magellan Award and many other honors and awards. Klappentext "Based on the concept that nature offers numerous sources of inspiration for inventions related to mechanisms! materials! processes! and algorithms! this book covers the topic of biomimetics and the inspired innovation. The many recognized world-wide leaders that contribute to the text describe the efforts of turning science fiction ideas into engineering reality. This book is a follow-up to the authors 2005 publication and addresses many topics that were not covered in the original text. It reviews possibilities! the state of the art! and the challenges toward inspiring new experts to join the field. Extensive references at the end of each chapter are provided to enhance additional study"--Provided by publisher. Zusammenfassung Mimicking nature – from science fiction to engineering reality Humans have always looked to nature’s inventions as a source of inspiration. The observation of flying birds and insects leads to innovations in aeronautics. Collision avoidance sensors mimic the whiskers of rodents. Optimization algorithms are based on survival of the fittest, the seed-picking process of pigeons, or the behavior of ant colonies. In recent years these efforts have become more intensive, with researchers seeking rules, concepts, and principles of biology to inspire new possibilities in materials, mechanisms, algorithms, and fabrication processes. A review of the current state of the art, Biomimetics: Nature Based Innovation documents key biological solutions that provide a model for innovations in engineering and science. Leading experts address a wide range of topics, including: Artificial senses and organs Mimicry at the cell–materials interface Multiscale modeling of plant cell wall architecture and tissue mechanics The making of biomimetic composites Electroactive polymer (EAP) actuators as artificial muscles EAP-based refreshable braille displays Biomimetic optics from the angles of biology and plants Biomimicry of flying birds, insects, and marine biology Applications of biomimetics in manufacturing, products, and medicine Robotics, including the development of human-like robots Biologically inspired design as a tool for interdisciplinary education The biomimetic process in artistic creation The final chapter outlines the challenges to biomimetic-related innovation and offers a vision for the future. A follow-up to Biomimetics: Biologically Inspired Technologies (2005), this comprehensive reference methodically surveys the latest advances in this rapidly emerging field. It features an abundance of illustrations, including a 32-page full-color insert, and provides exte...
