An iterative learning scheme for high performance, periodic quadrocopter trajectories

Author

Hehn, M. ; D´Andrea, Raffaello

Author_Institution

Inst. for Dynamic Syst. &Control, ETH Zurich, Zurich, Switzerland

fYear

2013

fDate

17-19 July 2013

Firstpage

1799

Lastpage

1804

Abstract

Quadrocopters allow the execution of high-performance maneuvers under feedback control. However, repeated execution typically leads to a large part of the tracking errors being repeated. This paper evaluates an iterative learning scheme for an experiment where a quadrocopter flies in a circle while balancing an inverted pendulum. The scheme permits the non-causal compensation of periodic errors when executing the circular motion repeatedly, and is based on a Fourier series decomposition of the repeated tracking error and compensation input. The convergence of the learning scheme is shown for the linearized system dynamics. Experiments validate the approach and demonstrate its ability to significantly improve tracking performance.

Keywords

Fourier series; adaptive control; aircraft control; feedback; iterative methods; learning systems; position control; Fourier series decomposition; feedback control; inverted pendulum; iterative learning scheme; linearized system dynamics; periodic errors noncausal compensation; periodic quadrocopter trajectories; repeated tracking error; Dynamics; Equations; Fourier series; Tracking; Trajectory; Vehicle dynamics; Vehicles;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Conference (ECC), 2013 European

Conference_Location

Zurich

Type

conf

Filename

6669739