000			02092cam a2200289zu 4500
001			88849489
003			FRCYB88849489
005			20250107221918.0
006			m o d
007			cr un
008			250107s2017 fr | o|||||0|0|||eng d
020			_a9780128141366
035			_aFRCYB88849489
040			_aFR-PaCSA _ben _c _erda
100	1		_aAltenbuchner, Cornelia
245	0	1	_aModern Flexible Multi-Body Dynamics Modeling Methodology for Flapping Wing Vehicles _c['Altenbuchner, Cornelia', 'Hubbard, James E, Jr.']
264		1	_bElsevier Science _c2017
300			_a p.
336			_btxt _2rdacontent
337			_bc _2rdamdedia
338			_bc _2rdacarrier
650		0	_a
700	0		_aAltenbuchner, Cornelia
700	0		_aHubbard, James E, Jr.
856	4	0	_2Cyberlibris _uhttps://international.scholarvox.com/netsen/book/88849489 _qtext/html _a
520			_aModern Flexible Multi-Body Dynamics Modeling Methodology for Flapping Wing Vehicles presents research on the implementation of a flexible multi-body dynamic representation of a flapping wing ornithopter that considers aero-elasticity. This effort brings advances in the understanding of flapping wing flight physics and dynamics that ultimately leads to an improvement in the performance of such flight vehicles, thus reaching their high performance potential. In using this model, it is necessary to reduce body accelerations and forces of an ornithopter vehicle, as well as to improve the aerodynamic performance and enhance flight kinematics and forces which are the design optimization objectives. This book is a useful reference for postgraduates in mechanical engineering and related areas, as well as researchers in the field of multibody dynamics. Uses Lagrange equations of motion in terms of a generalized coordinate vector of the rigid and flexible bodies in order to model the flexible multi-body system Provides flight verification data and flight physics of highly flexible ornithoptic vehicles Includes an online companion site with files/codes used in application examples
999			_c66432 _d66432