Name
Title | ||
|---|---|---|
A frequency domain iterative feed-forward learning scheme for high performance periodic quadrocopter maneuvers |
Abstract | ||
|---|---|---|
Quadrocopters exhibit complex high-speed fight dynamics, and the accurate modeling of these dynamics has proven diffcult. Due to the use of simplifed models in the design of feedback control algorithms, the execution of highperformance fight maneuvers under pure feedback control typically leads to large tracking errors. This paper investigates an iterative learning scheme aimed at the non-causal compensation of repeatable trajectory tracking errors over the course of multiple executions of periodic maneuvers. The learning is carried out in the frequency domain and uses a simplifed model of the closed-loop dynamics of quadrocopter and feedback controller. The resulting algorithm requires little computational power and memory, and its convergence is shown for the nominal model. This paper further introduces a time-scaling method that allows the initial learning to occur at reduced speeds, thus extending the applicability of the algorithm for high performance maneuvers. The presented algorithms are validated in experiments, with a quadrocopter fying a fgure-eight maneuver at high speed. |
Year | DOI | Venue |
|---|---|---|
2013 | 10.1109/IROS.2013.6696700 | Intelligent Robots and Systems |
Keywords | Field | DocType |
adaptive control,aerospace robotics,closed loop systems,convergence of numerical methods,feedforward,frequency-domain analysis,iterative methods,learning systems,robot dynamics,vehicle dynamics,closed-loop dynamics,complex high-speed flight dynamics,convergence,feedback control algorithm design,figure-eight maneuver,frequency domain iterative feedforward learning scheme,high performance periodic quadrocopter maneuvers,high-performance flight maneuvers,noncausal repeatable trajectory tracking error compensation,time-scaling method | Frequency domain,Convergence (routing),Iterative method,Computer science,Control theory,Control engineering,Vehicle dynamics,Iterative learning control,Adaptive control,Trajectory,Feed forward | Conference |
ISSN | Citations | PageRank |
2153-0858 | 2 | 0.39 |
References | Authors | |
15 | 2 | |
Name | Order | Citations | PageRank |
|---|---|---|---|
| Markus Hehn | 1 | 159 | 9.96 |
| Raffaello D'andrea | 2 | 1592 | 162.96 |