Fractional Order Flight Control of a Small Fixed-wing Uav: Controller Design and Simulation Study

Abstract

This paper focuses on designing and implementation of fractional order proportional integral (PIα) flight controller on a small fixed-wing unmanned aerial vehicle (UAV). It describes mainly the controller design and simulation studies. The basics of UAV flight control are introduced first with a special emphasis on small UAV platforms. Time domain system identification methods are tried on the UAV roll channel. A new fractional order PI controller design method is then provided based on the identified first order model. The fractional order PIα controller can outperform the traditional integer order PID controller because it has a larger memory and more candidate solutions to choose. The simulation results show the effectiveness of the proposed controller design strategy and the robustness of fractional order controller under conditions of wind gusts and various payloads. NOMENCLATURE UAV Unmanned Aerial Vehicle. PID Proportional Integral Derivative. FOC Fractional Order Control. AR Auto Regression. FOPTD First Order Plus Time Delay. ∗Ying Luo is on leave from Department of Automation Science and Engineering in South China University of Technology, Guangzhou, China. †Corresponding author. Email: yqchen@ieee.org

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Cite this paper

@inproceedings{Chao2009FractionalOF, title={Fractional Order Flight Control of a Small Fixed-wing Uav: Controller Design and Simulation Study}, author={Haiyang Chao and Ying Luo and Yangquan Chen}, year={2009} }