Position controller for a flapping-wing drone using ultra wide band

Position controller for a flapping-wing drone using ultra wide band

Gonzalez Archundia, Guillermo (TU Delft Aerospace Engineering)

de Croon, G.C.H.E. (mentor)

Delft University of Technology

Aerospace Engineering

2021-08-25

The continuous improvement and miniaturisation of elements in drones have been essential for making flapping-wing drones a reality. This thesis presents an integral approach for accurate indoor position control and estimation on flapping-wing drones. The approach considers three main aspects to enhance transient response of the drone. The first one is an experimental velocity/attitude flapping-wing model for drag compensation, obtained through system identification techniques. The second one is a voltage-dependent variable thrust model for enhancing height control. Thirdly, a characterisation of ground effects to determine the height for stable hovering. For the state estimation, an extended Kalman filter fuses UWB position measurements with IMU data. Due to the well-known multi-path effects of UWB, the Kalman filter includes an adaptive noise parameter based on height. The novel control strategy was validated with real flight tests, where position control improved by a factor of 1.5, reaching a mean absolute error of 10cm in positions in x and y, and 4.9cm for position in z.

Mavlab
UWB
drag compensation
FWMAV
position control
thrust control
ground effect

http://resolver.tudelft.nl/uuid:b18cead1-951b-4a21-a4bb-0ba36f1768ee

2026-08-25

51.990061383065424, 4.375257133543355

Student theses

master thesis

© 2021 Guillermo Gonzalez Archundia