Flight Control Study of an Virtual Insect by a Simulation

Jsme International Journal Series C-mechanical Systems Machine Elements and Manufacturing Pub Date : 2006-06-15 DOI:10.1299/JSMEC.49.556

Futoshi Tanaka, T. Ohmi, S. Kuroda, K. Hirasawa

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引用次数: 5

Abstract

In this paper, we show an approach to elucidate the free flight of an insect using a simulation. We modeled a fly, Drosophila, by using aerodynamics, body dynamics, and control theory. The modeled virtual insect performs free flight in virtual space generated by a computer. We simulated the free flight of a virtual insect having two dimensions and two degrees of freedom. The flight pass and flight velocity of the virtual insect during a free flight were calculated by Newton’s equations of motion. The aerodynamic force generated by the flapping motion of the virtual insect was estimated by using the blade element theory. An optimal regulator theory was used as a control law. The flight pass from the initial position to the target position and the wing motion was obtained from the results of the free flight simulation of the virtual insect. We can presume the wing motion of an insect in free flight by using the flight simulation of a virtual insect. These results have suggested that the approach based on the simulation is effective in elucidating the free flight of an insect.

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虚拟昆虫的飞行控制仿真研究

在本文中，我们展示了一种方法来阐明昆虫的自由飞行模拟。我们用空气动力学、身体动力学和控制理论来模拟果蝇。模拟的虚拟昆虫在计算机生成的虚拟空间中自由飞行。我们模拟了一个具有二维和两个自由度的虚拟昆虫的自由飞行。利用牛顿运动方程计算了虚拟昆虫在自由飞行过程中的飞行路径和飞行速度。利用叶片单元理论对虚拟昆虫扑动产生的气动力进行了估计。采用最优调节器理论作为控制律。根据虚拟昆虫的自由飞行仿真结果，得到了其从初始位置到目标位置的飞行路径和翅膀运动。通过对虚拟昆虫的飞行模拟，我们可以假设昆虫在自由飞行时的翅膀运动。这些结果表明，基于模拟的方法对解释昆虫的自由飞行是有效的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Jsme International Journal Series C-mechanical Systems Machine Elements and Manufacturing

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