A Data-Driven Adaptive Method for Attitude Control of Fixed-Wing Unmanned Aerial Vehicles

Meili Chen, Y. Wang
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引用次数: 1

Abstract

In this paper, a real-time online data-driven adaptive method is developed to deal with uncertainties such as high nonlinearity, strong coupling, parameter perturbation and external disturbances in attitude control of fixed-wing unmanned aerial vehicles (UAVs). Firstly, a model-free adaptive control (MFAC) method requiring only input/output (I/O) data and no model information is adopted for control scheme design of angular velocity subsystem which contains all model information and up-mentioned uncertainties. Secondly, the internal model control (IMC) method featured with less tuning parameters and convenient tuning process is adopted for control scheme design of the certain Euler angle subsystem. Simulation results show that, the method developed is obviously superior to the cascade PID (CPID) method and the nonlinear dynamic inversion (NDI) method.
固定翼无人机姿态控制的数据驱动自适应方法
针对固定翼无人机姿态控制中存在的高非线性、强耦合、参数摄动和外界干扰等不确定性,提出了一种实时在线数据驱动自适应方法。首先,采用一种只需要输入/输出(I/O)数据而不需要模型信息的无模型自适应控制(MFAC)方法进行角速度子系统的控制方案设计,该方法包含了所有模型信息和上述不确定性。其次,针对某欧拉角子系统的控制方案设计,采用内模控制(IMC)方法,具有整定参数少、整定过程方便的特点;仿真结果表明,该方法明显优于串级PID (CPID)方法和非线性动态反演(NDI)方法。
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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