Keywords: چرخش بال; Insect flight; Rectilinear flight; Flapping wings; Computational fluid dynamics (CFD); Six-degree of freedom (6-DoF); Flight control;
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Keywords: چرخش بال; Electromagnetic actuator; Low voltage; Flapping wings; FMAV;
Keywords: چرخش بال; blade element theory; unsteady; computational fluid dynamics; flapping wings; biomimetic;
Keywords: چرخش بال; Insect flight; Flapping wings; Revolving wings; Aerodynamics; Hummingbird; Elliptic wing;
Keywords: چرخش بال; Flapping wings; Simulations; Deformations; MAV; Immersed boundary method
Keywords: چرخش بال; Fluid–structure interaction; Flapping wings; Lattice Boltzmann method; Immersed boundary
Keywords: چرخش بال; Flapping wings; MAV; Immersed boundary methods; Delfly; Biplane;
Keywords: چرخش بال; Fluid-structure interaction; Lattice Boltzmann method; Flapping wings; Immersed boundary;
Keywords: چرخش بال; Unsteady vortex lattice method; Flapping wings; B-splines; Shape optimization; Performance analysis
Keywords: چرخش بال; Free hovering flight; Flapping wings; Fruit fly; Insect aerodynamics; Flight stability and control; Pendulum principle; Leading edge vortex (LEV); Computational fluid dynamics (CFD); Navier–Stokes equations (N–S); Fluid structure interaction (FSI); Genera
Keywords: چرخش بال; Low Reynolds number aerodynamics; Fluid-structure interactions; Flapping wings; Flow control;
Keywords: چرخش بال; Mesh deformation; Radial basis functions; OpenFOAM®; Flapping wings;
Keywords: چرخش بال; Biomimetic ship propulsion; Flapping wings; Energy from waves;
Effect of Different Types of Wing-Wing Interactions in Flapping MAVs
Keywords: چرخش بال; flapping wings; MAV; immersed boundary methods; clap and fling;
A modified ALE method for fluid flows around bodies moving in close proximity
Keywords: چرخش بال; Clap-and-fling; Flapping wings; Immersed boundary method; Mesh topology changing method; ALE; Moving meshes
Aeroelastic study of flexible flapping wings by a coupled lattice Boltzmann-finite element approach with immersed boundary method
Keywords: چرخش بال; Fluid-structure interaction; Lattice Boltzmann method; Flapping wings; Immersed boundary;
Computer modeling techniques for flapping-wing aerodynamics of a locust
Keywords: چرخش بال; Flapping wings; Locust; Computational aerodynamics; Space–time techniques; NURBS; Temporal NURBS
Wing performance and 3-D vortical structure formation in flapping flight
Keywords: چرخش بال; Flapping wings; Insect flight; Vortices; Three-dimensional numerical simulations
Global optimization of actively morphing flapping wings
Keywords: چرخش بال; Unsteady vortex lattice method; Flapping wings; Global optimization
Flight force production by flapping insect wings in inclined stroke plane kinematics
Keywords: چرخش بال; Insect flight; Inclined stroke plane hovering; Immersed boundary method; Wake capture; Flapping wings
SVD–GFD scheme to simulate complex moving body problems in 3D space
Keywords: چرخش بال; 65M06; 76D05Incompressible Navier–Stokes; Moving body; Hybrid meshfree-and-Cartesian grid; Generalized finite difference; Flapping wings
Effect of spanwise flexibility on flapping wing propulsion
Keywords: چرخش بال; Vortex flows; Flapping wings; Heave; Thrust; Propulsive efficiency; Wing flexibility.