According to the theoretical analysis and practice examples, this thesis demonstrates: flexible wings for MAV based on bionics principle can improve the ability of resisting gust environment prominently and will be more adaptable to Flapping MAV.
论文从理论和实践证明:基于仿生学原理的柔性翼技术可以显著提高微型飞行器抵抗突风环境的能力,且更适用于微型扑翼飞行器。
参考来源 - 适用于突风环境的微型扑翼飞行器柔性翼气动特性研究Micro flapping-wing aerial vehicle (FMAV) is the outcome of the application of the new materials and technologies, and quickly become a hot subject studied both at home and abroad because it has wide prospect in the military and civil field.
微型扑翼飞行器是新材料应用、新技术发展的产物,因其在军事、民用等领域的广阔应用前景而成为国内外研究的一个热点课题。
参考来源 - 微型扑翼飞行器传动系统设计及新型扑翼形式概念研究·2,447,543篇论文数据,部分数据来源于NoteExpress
本文对微型扑翼飞行器尾翼的特性、对稳定性和操纵性的影响以及尾翼的设计理论与方法进行了研究。
Therefore, the characteristics, the influence on the stability and control, as well as the design theories of the FMAV empennage are studied here.
研制象昆虫这样能够扑翼飞行的微型飞行器成为目前昆虫运动仿生研究中的一个热门课题。
It is important to study the biomechanics of an insect to improve the specification of Micro Air Vehicles (MAV).
仿生学和空气动力学研究均表明,对于特征尺寸相当于鸟类或者昆虫的微型飞行器来说,扑翼飞行器要优于固定翼和旋翼飞行器。
Research on bionics and aerodynamics indicates that flapping mode is better than rotorcraft and fixed-wing mode when they are about the size of small birds.
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