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Stability of the flapping-wing vehicle near hovering under active control by varying flapping frequency

机译：通过改变拍打频率在主动控制下的悬停襟翼飞行器的稳定性

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We establish the dynamics relative to flapping angle of the flapping wing vehicle based on the quasi-steady aerodynamics model and Newton-Euler motion equations, and describe the stability analysis method of linearized perturbation equation under active control by varying flapping frequency based on the Routh-Hurwitz stability criterion. To give a demonstration, we design a flapping wing mechanism and analyze its stability under the linear controller. As a typical benchmark, the aerodynamic and kinematic parameters of a hummingbird are used to estimate stability derivatives of the flapping-wing vehicle. The feasible region for the gain selection of our linear controller is finally obtained.

机译：我们基于准稳态空气动力学模型和牛顿-欧拉运动方程，建立了与扑翼飞行器扑翼角相对应的动力学特性，并描述了基于劳斯的变拍频率主动控制下线性化摄动方程稳定性分析方法。 Hurwitz稳定性判据。为了进行演示，我们设计了一种襟翼机翼机构，并分析了其在线性控制器下的稳定性。作为典型的基准，蜂鸟的空气动力学参数和运动学参数用于估算襟翼飞行器的稳定性导数。最终获得了用于线性控制器增益选择的可行区域。

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《Chinese Automation Congress》|2017年|6078-6084|共7页
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作者
Yongbin Huang; Jiaming Liang; Chao Xu;
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关键词
Insects; Aerodynamics; Stability criteria; Force; Mathematical model;

机译：昆虫;空气动力学;稳定性判据;力;数学模型;

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专利

1. Longitudinal Modeling and Control of Tailed Flapping-Wings Micro Air Vehicles near Hovering [J] . Tao Jiang, Xiaosong Yang, Hongwei Wang, Journal of robotics . 2019,第PTa1期

机译：悬停尾翼翼微型航空公司的纵向建模与控制
2. Longitudinal Modeling and Control of Tailed Flapping-Wings Micro Air Vehicles near Hovering [J] . Tao Jiang, Xiaosong Yang, Hongwei Wang, Journal of robotics . 2019,第2期

机译：悬停尾翼翼微型航空公司的纵向建模与控制
3. Wingbeat Shape Modulation for Flapping-Wing Micro-Air-Vehicle Control During Hover [J] . David B. Doman, Michael W. Oppenheimer, David O. Sigthorsson Journal of Guidance, Control, and Dynamics . 2010,第3期

机译：悬停期间拍打式翼微空车辆控制的Wingbeat形状调制
4. Stability of the flapping-wing vehicle near hovering under active control by varying flapping frequency [C] . Yongbin Huang, Jiaming Liang, Chao Xu Chinese Automation Congress . 2017

机译：通过不同的拍打频率在主动控制下悬停悬浮翼车的稳定性
5. Design of Hybrid Passive and Active Mechanisms for Control of Insect-Scale Flapping-Wing Robots [D] . Teoh, Zhi Ern. 2015

机译：用于控制昆虫型扑翼机器人的混合动力源与有源机制的设计
6. Clap-and-fling mechanism in a hovering insect-like two-winged flapping-wing micro air vehicle [O] . Hoang Vu Phan, Thi Kim Loan Au, Hoon Cheol Park 2016

机译：盘旋在昆虫类双翼扑翼微型飞行器中的拍打机制
7. A Hovering Flapping-Wing Microrobot with Altitude Control and Passive Upright Stability [O] . Z. E. Teoh, S. B. Fuller, P. Chirarattananon, 2015

机译：具有高度控制和被动直立稳定性的悬停扑翼微型机器人
8. Wingbeat Shape Modulation for Flapping-Wing Micro-Air-Vehicle Control During Hover (Postprint) [R] . Doman, D. B., Oppenheimer, M. W., Sigthorsson, D. O. 2010

机译：悬停时扑翼微型飞行器控制的Wingbeat形状调制（postprint）

Stability of the flapping-wing vehicle near hovering under active control by varying flapping frequency

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