A Semi-Empirical Approach to Determine Dynamic Stability of In-Flight Morphing Platforms

T. Marchelli, N. Sarigul-Klijn
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Abstract

This paper presents a semi-empirical approach to estimate the flight dynamics and stability derivatives of in-flight morphed platforms. Morphing can be a result of either planned design choices to optimize performance during the different phases of flight, or unplanned events such as wing damage induced from MANPADS or from a midair collision. Mass, mass center, stiffness, and shape changes caused by morphing do not always allow vehicle symmetry to be preserved, therefore a new semi-empirical approach is developed that includes effects of asymmetry. This new approach, and the additional stability derivatives formulated in this research, should prove useful and must be included in the accurate evaluation of in-flight morphing vehicles and in development of flight simulations.
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一种确定飞行变形平台动态稳定性的半经验方法
本文提出了一种半经验方法来估计飞行变形平台的飞行动力学和稳定性导数。变形可以是在不同飞行阶段优化性能的计划设计选择的结果,也可以是计划外事件的结果,例如由便携式防空系统或空中碰撞引起的机翼损伤。变形引起的质量、质心、刚度和形状变化并不总是允许车辆保持对称性,因此开发了一种新的半经验方法,包括不对称的影响。这种新方法,以及本研究中制定的附加稳定性导数,应该证明是有用的,必须包括在飞行变形飞行器的准确评估和飞行模拟的发展中。
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