无人机自主起飞动力学建模与控制

Proceedings of 2013 2nd International Conference on Measurement, Information and Control Pub Date : 2013-08-01 DOI:10.1109/MIC.2013.6758061

Gao Jiu-zhou, D. Zhen

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引用次数: 0

摘要

为了实现无人机沿跑道中心线的自主起飞，需要为无人机建立独特的动力特性，并设计合适的控制方法。在本研究中，动力学模型使前主轮压力比为常数，然后将滚动力矩引起的压力误差分别加到左右主轮上。动力学模型还考虑了电机力矩和风扰动。在此基础上，设计了一种前轮和方向舵摇摆控制的方向和侧向位移控制方法。仿真结果表明，前轮与主轮分时控制器在初始位移为1m、初始偏航角为5°、风速为3m/s的环境下实现了目标。

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Dynamic modeling and controlling for autonomous takeoff of Unmanned Aerial Vehicle

To achieve the autonomous takeoff of Unmanned Aerial Vehicle along the centerline of the runway, the unique dynamical characteristics should be established for the UAV and the suitable control method should be designed. In this study, the dynamic model makes the pressure ratio of front-main wheel is a constant, then adding the pressure errors caused by the rolling moment to the left and right main wheels separately. The dynamic model also includes the motor twisting moment and the wind disturbance. Based on all the factors mentioned above, a control method by front wheel and rudder swaying is designed for the direction and lateral displacement control. The simulation results show that the time-separate controller by front and main wheels achieves the destination in the environment of initial displacement 1m, initial yaw angle 5° and wind velocity 3m/s.

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Proceedings of 2013 2nd International Conference on Measurement, Information and Control

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