在振荡气流中悬停的物体的固有稳定性。

Intrinsic stability of a body hovering in an oscillating airflow.

机构信息

Applied Mathematics Laboratory, Courant Institute, New York University, New York, New York 10012, USA.

出版信息

Phys Rev Lett. 2012 Feb 10;108(6):068103. doi: 10.1103/PhysRevLett.108.068103. Epub 2012 Feb 9.

DOI:10.1103/PhysRevLett.108.068103

Abstract

We explore the stability of flapping flight in a model system that consists of a pyramid-shaped object hovering in a vertically oscillating airflow. Such a flyer not only generates sufficient aerodynamic force to keep aloft but also robustly maintains balance during free flight. Flow visualization reveals that both weight support and orientational stability result from the periodic shedding of vortices. We explain these findings with a model of the flight dynamics, predict increasing stability for higher center of mass, and verify this counterintuitive fact by comparing top- and bottom-heavy flyers.

摘要

我们探索了一个模型系统中扑翼飞行的稳定性，该模型系统由一个金字塔形状的物体在垂直振动的气流中盘旋组成。这种飞行器不仅能产生足够的升力来保持在空中，而且在自由飞行中也能稳健地保持平衡。流动可视化显示，重量支撑和定向稳定性都源于周期性涡旋的脱落。我们用飞行动力学模型解释了这些发现，预测了更高的质心会增加稳定性，并通过比较头重脚轻和脚重头轻的飞行器验证了这个违反直觉的事实。

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在振荡气流中悬停的物体的固有稳定性。

Intrinsic stability of a body hovering in an oscillating airflow.

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