Backstepping-based supertwisting sliding mode attitude control for a quadrotor aircraft subjected to wind disturbances: experimental validation

被引:0
作者
Hamid Hassani
Anass Mansouri
Ali Ahaitouf
机构
[1] Sidi Mohamed Ben Abdellah University,Laboratory of Intelligent Systems, Geo
[2] Sidi Mohamed Ben Abdellah University,Resources and Renewable Energies Faculty of Sciences and Technology
来源
International Journal of Dynamics and Control | 2023年 / 11卷
关键词
Quadrotor; Backstepping; Supertwisting; Experiment;
D O I
暂无
中图分类号
学科分类号
摘要
Quadrotor unmanned aerial vehicles are increasingly explored due to their potential applications in many daily activities, including surveillance, cinematography, product delivery, and so on. Designing a flight control system for such a vehicle is very challenging because of its nonlinear dynamics and its sensitivity to the influence of disturbances. To meet part of this challenge, here a robust backstepping supertwisting sliding mode control (BSTSMC) has been developed to achieve a good tracking of the targeted trajectories. The proposed flight control system can drive the quadrotor's attitude to their reference values rapidly and, at the same time, reduce the impact of external perturbations and model inaccuracies. Experimental tests on an X450 quadrotor were performed to prove the practicality and disturbance rejection capability of the suggested control scheme.
引用
收藏
页码:1285 / 1296
页数:11
相关论文
共 79 条
[1]  
Islam S(2014)Robust control of four-rotor unmanned aerial vehicle with disturbance uncertainty IEEE Trans Industr Electron 62 1563-1571
[2]  
Liu PX(2018)Adaptive sliding mode control for finite-time stability of quad-rotor UAVs with parametric uncertainties ISA Trans 72 1-14
[3]  
El Saddik A(2017)Robust attitude stabilization for nonlinear quadrotor systems with uncertainties and delays IEEE Trans Industr Electron 64 5585-5594
[4]  
Mofid O(2021)Robust adaptive backstepping global fast dynamic terminal sliding mode controller design for quadrotors J Intell Rob Syst 103 1-12
[5]  
Mobayen S(2011)Quad-rotor unmanned aerial vehicle helicopter modelling and control Int J Adv Rob Syst 8 45-151
[6]  
Liu H(2009)Backstepping approach for controlling a quadrotor using lagrange form dynamics J Intell Rob Syst 56 127-206
[7]  
Xi J(2019)Quadrotor UAV flight control via a novel saturation integral backstepping controller Automatika 60 193-44
[8]  
Zhong Y(2014)Design and optimization of backstepping controller for an underactuated autonomous quadrotor unmanned aerial vehicle Trans FAMENA 38 27-321
[9]  
Tilki U(2015)Enhanced backstepping controller design with application to autonomous quadrotor unmanned aerial vehicle J Intell Rob Syst 79 295-1727
[10]  
Erüst AC(2018)Design and application of an adaptive backstepping sliding mode controller for a six-DOF quadrotor aerial robot Robotica 36 1701-307
12345678