Fractional order controller for pitch loop control of a VTOL UAV

As the fundamental tuning step for vertical takeoff and landing (VTOL) unmanned aerial vehicles (UAVs), pitch loop control has significant impact on the flight. In this paper, an auto-regressive with exogenous input (ARX) model is acquired and converted to a first-order plus time delay (FOPTD) model for the pitch loop of a VTOL UAV. Based on the FOPTD model, a fractional order [proportional integral] (FO[PI]) controller is designed. An integer order PI controller based on the modified Ziegler-Nichols (MZNs) tuning rule and a general integer order proportional integral derivative (PID) controller are also designed for comparison following three design specifications. Simulation results have shown that the proposed fractional order controller outperforms both the MZNs PI controller and the integer order PID controller in terms of robustness and disturbance rejection.

[1]  R. Lozano,et al.  Triple tilting rotor mini-UAV: Modeling and embedded control of the attitude , 2008, 2008 American Control Conference.

[2]  YangQuan Chen,et al.  Fractional order control - A tutorial , 2009, 2009 American Control Conference.

[3]  Georgios Milionis A framework for collaborative Quadrotor - ground robot missions , 2011 .

[4]  YangQuan Chen,et al.  Cognitive Multi-UAV Formation Flight: Principle, Low-Cost UAV Testbed, Controller Tuning and Experiments , 2011 .

[5]  Mustafa Unel,et al.  Robust position control of a tilt-wing quadrotor , 2010, 49th IEEE Conference on Decision and Control (CDC).

[6]  Ying Luo,et al.  Fractional Order Motion Controls: Luo/Fractional Order Motion Controls , 2012 .

[7]  Abdelhamid Tayebi,et al.  Attitude stabilization of a VTOL quadrotor aircraft , 2006, IEEE Transactions on Control Systems Technology.

[8]  I. Podlubny Fractional differential equations , 1998 .

[9]  Yangquan Chen,et al.  AggieAir — a low-cost autonomous multispectral remote sensing platform: New developments and applications , 2009, IEEE International Geoscience and Remote Sensing Symposium.

[10]  A Abdessameud,et al.  Formation control of VTOL UAVs without linear-velocity measurements , 2010, Proceedings of the 2010 American Control Conference.

[11]  Haiyang Chao,et al.  VTOL UAV Altitude Flight Control Using Fractional Order Controllers , 2010 .

[12]  YangQuan Chen,et al.  Linear Feedback Control: Analysis and Design with MATLAB , 2008 .

[13]  YangQuan Chen,et al.  Fractional-order Systems and Controls , 2010 .

[14]  Haiyang Chao,et al.  Roll-channel fractional order controller design for a small fixed-wing unmanned aerial vehicle , 2010 .

[15]  YangQuan Chen,et al.  Autonomous Flying Under 500 USD Based on RC Aircraft , 2011 .

[16]  Yangquan Chen,et al.  Low-cost Multi-UAV Technologies for Contour Mapping of Nuclear Radiation Field , 2013, J. Intell. Robotic Syst..

[17]  Roland Siegwart,et al.  Full control of a quadrotor , 2007, 2007 IEEE/RSJ International Conference on Intelligent Robots and Systems.

[18]  Yiding Han,et al.  AggieAir: An Integrated and Effective Small Multi-UAV Command, Control and Data Collection Architecture , 2009 .

[19]  Y. Chen,et al.  Fractional Order Motion Controls , 2012 .

[20]  Rogelio Lozano,et al.  Hovering quad-rotor control: A comparison of nonlinear controllers using visual feedback , 2010, 49th IEEE Conference on Decision and Control (CDC).

[21]  YangQuan Chen,et al.  Improved Architecture Designs for a Low Cost Personal Remote Sensing Platform: Flight Control and Safety , 2011 .