Robust control of quadrotor system in the presence of disturbances and uncertainties: using a virtual control approach

2018 6th RSI International Conference on Robotics and Mechatronics (IcRoM) Pub Date : 2018-10-01 DOI:10.1109/ICROM.2018.8657548

M. Ahmadzadeh, M. Menhaj, M. Shamshirsaz

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引用次数: 2

Abstract

The aim of the paper is to design a controller for a quadrotor robot in the presence of external disturbances and uncertainties in the system parameters in such a way that the robot tracks a commanded trajectory accurately. In our approach, the system model is divided into two subsystems, i.e. the under-actuated translational dynamics and the fully-actuated rotational dynamics. At the first step, to control the translational dynamics, we take advantage of a virtual controller, from which the commanded attitude and the thrust input is calculated. In the design of the virtual controller, we exploit an auxiliary system to deal with the under-actuation of the translational dynamics. A prior-bounded estimator is also exploited to counteract the effect of the translational disturbances. After that, a sliding mode controller is developed for the rotational dynamics to tackle the parametric uncertainty and external disturbances in the rotational dynamics. Using Lyapunov function theory, the overall stability of the proposed control scheme is assured. Finally, simulation results are presented to show the effectiveness of the proposed controller.

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存在干扰和不确定性的四旋翼系统鲁棒控制:采用虚拟控制方法

本文的目的是为四旋翼机器人在存在外部干扰和系统参数不确定性的情况下设计一种控制器，使机器人能够准确地跟踪指令轨迹。在我们的方法中，系统模型分为两个子系统，即欠驱动的平移动力学和完全驱动的旋转动力学。在第一步，为了控制平移动力学，我们利用虚拟控制器，从命令姿态和推力输入计算。在虚拟控制器的设计中，我们利用辅助系统来解决平移动力学的欠驱动问题。利用先验有界估计来抵消平移扰动的影响。在此基础上，针对旋转动力学中存在的参数不确定性和外部干扰，设计了滑模控制器。利用李雅普诺夫函数理论，保证了所提控制方案的整体稳定性。最后给出了仿真结果，验证了所提控制器的有效性。

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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来源期刊

2018 6th RSI International Conference on Robotics and Mechatronics (IcRoM)

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