RIMT大学和布里斯托尔大学发现,海豹依靠地表面积的变化来稳定飞行,这可以改善无人驾驶飞机的设计和固定翼飞机的稳定。 RMIT University and University of Bristol discovered that kestrels rely on changes in surface area for flight stabilization, which could improve drone designs and fixed-wing aircraft stability.
RMIT大学和布里斯托尔大学 已经发现了凯斯特雷尔非常稳定的飞行的秘密 这可以为未来的无人机设计和飞行控制战略 铺平道路 RMIT University and the University of Bristol have discovered the secrets to the kestrel's remarkably steady flight, which could pave the way for future drone designs and flight control strategies. 研究发现,猎物鸟类,如海雀,更多地依赖表面变化,而不是在飞行期间为稳定而飞来飞去,这也许是实现固定翼飞机稳定飞行的一个更有效的方法。 The study found that birds of prey, such as kestrels, rely more on changes in surface area than flap movements for stabilisation during flight, which may be a more efficient method for achieving stable flight in fixed-wing aircraft. 研究人员通过研究Kestrels独特的风悬浮飞行行为,获得了有助于固定翼飞机稳定飞行的洞察力,加强了在恶劣天气条件下无人驾驶飞机的稳定性和安全性。 By studying the kestrels' unique wind hovering flight behaviour, researchers gained insights that could help achieve steadier flight for fixed-wing aircraft and enhance the stability and safety of drones in adverse weather conditions. 该小组旨在通过在严酷和动荡条件下对鸟类进行检查来进一步开展研究,这将为稳定飞行提供更多的学习。 The team aims to further their research by examining birds under gusty and turbulent conditions, which would provide more learnings for stable flight.