An Insect-Scale Flapping-Wing Micro Aerial Vehicle Inspired by Tumblers Capable of Uncontrolled Self-Stabilizing Flying. [PDF]
Research (Wash D C)Lu X +5 more
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Numerical Investigation on the Aerodynamic Benefits of Corrugated Wing in Dragonfly-like Hovering Flapping Wing. [PDF]
Biomimetics (Basel)Shanmugam AR, Sohn CH, Park KS.
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Aerodynamic Characteristics of a Tandem Flapping Wing in Inclined Stroke Plane Hovering with Ground Effect. [PDF]
Biomimetics (Basel)Shanmugam AR, Sohn CH, Park KS.
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Development of a Dragonfly-Inspired High Aerodynamic Force Flapping-Wing Mechanism Using Asymmetric Wing Flapping Motion. [PDF]
Biomimetics (Basel)Liang J +6 more
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A Modified Quasisteady Aerodynamic Model for a Sub-100 mg Insect-Inspired Flapping-Wing Robot. [PDF]
Appl Bionics Biomech, 2020 Wang C, Zhang W, Hu J, Zhao J, Zou Y.
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Analysis and Testing of a Flyable Micro Flapping-Wing Rotor with a Highly Efficient Elastic Mechanism. [PDF]
Biomimetics (Basel)Pan Y, Su H, Guo S, Chen S, Huang X.
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Structural Design and Kinematic Modeling of Highly Biomimetic Flapping-Wing Aircraft with Perching Functionality. [PDF]
Biomimetics (Basel)Pu W, Shen Q, Yang Y, Lu Y, Yan Y.
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Biomimicry of the Hawk Moth, Manduca sexta (L.), Produces an Improved Flapping-Wing Mechanism. [PDF]
Biomimetics (Basel), 2020 Moses K, Willis M, Quinn R.
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Development of a Novel Tailless X-Type Flapping-Wing Micro Air Vehicle with Independent Electric Drive. [PDF]
Biomimetics (Basel)Zhang Y +8 more
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Dynamic performances of a bird-like flapping wing robot under randomly uncertain disturbances. [PDF]
PLoS One, 2020 Ding C.
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