CGull: A Non-Flapping Bioinspired Composite Morphing Drone

变形 航空航天工程 推力 拍打 模块化设计 鸟类飞行 计算机科学 空气动力学 航空航天 机翼载荷 飞行动力学 机制(生物学) 无人机 推进 航空学 工程类 攻角 物理 生物 量子力学 操作系统 遗传学 计算机视觉
作者
Peter L. Bishay,Alex Rini,Moises Brambila,Peter Niednagel,Jordan Eghdamzamiri,Hariet Yousefi,Joshua Herrera,Youssef Saad,Eric Bertuch,Caleb Black,Donovan Hanna,Ivan Dario Jimenez Rodriguez
出处
期刊:Biomimetics [Multidisciplinary Digital Publishing Institute]
卷期号:9 (9): 527-527 被引量:3
标识
DOI:10.3390/biomimetics9090527
摘要

Despite the tremendous advances in aircraft design that led to successful powered flights of aircraft as heavy as the Antonov An-225 Mriya, which weighs 640 tons, or as fast as the NASA-X-43A, which reached a record of Mach 9.6, many characteristics of bird flight have yet to be utilized in aircraft designs. These characteristics enable various species of birds to fly efficiently in gusty environments and rapidly change their momentum in flight without having modern thrust vector control (TVC) systems. Vultures and seagulls, as examples of expert gliding birds, can fly for hours, covering more than 100 miles, without a single flap of their wings. Inspired by the Great Black-Backed Gull (GBBG), this paper presents “CGull”, a non-flapping unmanned aerial vehicle (UAV) with wing and tail morphing capabilities. A coupled two degree-of-freedom (DOF) morphing mechanism is used in CGull’s wings to sweep the middle wing forward and the outer feathered wing backward, replicating the GBBG’s wing deformation. A modular two DOF mechanism enables CGull to pitch and tilt its tail. A computational model was first developed in MachUpX to study the effects of wing and tail morphing on the generated forces and moments. Following the biological construction of birds’ feathers and bones, CGull’s structure is mainly constructed from carbon-fiber composite shells. The successful flight test of the proof-of-concept physical model proved the effectiveness of the proposed morphing mechanisms in controlling the UAV’s path.
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