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Flight dynamics and system identification for modern feedback control: Avian-inspired Robots - Couverture rigide
Synopsis
Unmanned air vehicles are becoming increasingly popular alternatives for private applications which include, but are not limited to, fire fighting, search and rescue, atmospheric data collection, and crop surveys, to name a few. Among these vehicles are avian-inspired, flapping-wing designs, which are safe to operate near humans and are required to carry payloads while achieving manoeuverability and agility in low speed flight. Conventional methods and tools fall short of achieving the desired performance metrics and requirements of such craft. Flight dynamics and system identification for modern feedback control provides an in-depth study of the difficulties associated with achieving controlled performance in flapping-wing, avian-inspired flight, and a new model paradigm is derived using analytical and experimental methods, with which a controls designer may then apply familiar tools. This title consists of eight chapters and covers flapping-wing aircraft and flight dynamics, before looking at nonlinear, multibody modelling as well as flight testing and instrumentation. Later chapters examine system identification from flight test data, feedback control and linearization.
Key Features: presents experimental flight data for validation and verification of modelled dynamics, thus illustrating the deficiencies and difficulties associated with modelling flapping-wing flight; derives a new flight dynamics model needed to model avian-inspired vehicles, based on nonlinear multibody dynamics.
Contents: Ornithopter test platform characterizations; Rigid multibody vehicle dynamics; System identification of aerodynamic models; Simulation results.
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À propos de l?auteur
Jared A. Grauer is a research aerospace engineer with the National Aeronautics and Space Administration at Langley Research Center. Prior to this he earned a PhD from the University of Maryland in Aerospace Engineering. His research is in system identification, feedback control, and unmanned air vehicle systems. James E. Hubbard Jr, is currently Professor of engineering at the University of Maryland and is serving as the Langley Distinguished Professor, resident at the National Institute of Aerospace. He has researched, developed, and manufactured morphing aircraft, smart materials, and unmanned air vehicle technologies. Prior to this, he led several companies, served as a Professor at the Massachusetts Institute of Technology, and earned a PhD from the same institution. He is a Fellow of The American Institute of Aeronautics and Astronautics (AIAA).
Les informations fournies dans la section « A propos du livre » peuvent faire référence à une autre édition de ce titre.
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Flight Dynamics and System Identification for Modern Feedback Control: Avian-Inspired Robots
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Flight Dynamics and System Identification for Modern Feedback Control
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Flight Dynamics and System Identification for Modern Feedback Control: Avian-inspired Robots
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Flight Dynamics and System Identification for Modern Feedback Control
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Flight Dynamics and System Identification for Modern Feedback Control: Avian-Inspired Robots
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Flight Dynamics and System Identification for Modern Feedback Control
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Elsevier Science & Technology, Woodhead Publishing, 2013
ISBN 10 : 0857094661
ISBN 13 : 9780857094667
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Vendeur : BuchWeltWeit Ludwig Meier e.K., Bergisch Gladbach, Allemagne
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Buch. Etat : Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Unmanned air vehicles are becoming increasingly popular alternatives for private applications which include, but are not limited to, fire fighting, search and rescue, atmospheric data collection, and crop surveys, to name a few. Among these vehicles are avian-inspired, flapping-wing designs, which are safe to operate near humans and are required to carry payloads while achieving manoeuverability and agility in low speed flight. Conventional methods and tools fall short of achieving the desired performance metrics and requirements of such craft. Flight dynamics and system identification for modern feedback control provides an in-depth study of the difficulties associated with achieving controlled performance in flapping-wing, avian-inspired flight, and a new model paradigm is derived using analytical and experimental methods, with which a controls designer may then apply familiar tools. This title consists of eight chapters and covers flapping-wing aircraft and flight dynamics, before looking at nonlinear, multibody modelling as well as flight testing and instrumentation. Later chapters examine system identification from flight test data, feedback control and linearization. Englisch. N° de réf. du vendeur 9780857094667
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Flight Dynamics and System Identification for Modern Feedback Control
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Woodhead Publishing Limited, 2013
ISBN 10 : 0857094661
ISBN 13 : 9780857094667
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Vendeur : Biblios, Frankfurt am main, HESSE, Allemagne
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Etat : New. pp. 160. N° de réf. du vendeur 1842180342
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Flight Dynamics and System Identification for Modern Feedback Control : Avian-Inspired Robots
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Elsevier Science & Technology, Woodhead Publishing, 2013
ISBN 10 : 0857094661
ISBN 13 : 9780857094667
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Buch. Etat : Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - Unmanned air vehicles are becoming increasingly popular alternatives for private applications which include, but are not limited to, fire fighting, search and rescue, atmospheric data collection, and crop surveys, to name a few. Among these vehicles are avian-inspired, flapping-wing designs, which are safe to operate near humans and are required to carry payloads while achieving manoeuverability and agility in low speed flight. Conventional methods and tools fall short of achieving the desired performance metrics and requirements of such craft. Flight dynamics and system identification for modern feedback control provides an in-depth study of the difficulties associated with achieving controlled performance in flapping-wing, avian-inspired flight, and a new model paradigm is derived using analytical and experimental methods, with which a controls designer may then apply familiar tools. This title consists of eight chapters and covers flapping-wing aircraft and flight dynamics, before looking at nonlinear, multibody modelling as well as flight testing and instrumentation. Later chapters examine system identification from flight test data, feedback control and linearization. N° de réf. du vendeur 9780857094667
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Flight Dynamics and System Identification for Modern Feedback Control: Avian-Inspired Robots
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Woodhead Publishing, 2013
ISBN 10 : 0857094661
ISBN 13 : 9780857094667
Neuf
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