Title
Guidance & Control Networks for Time-Optimal Quadcopter Flight
Author
Origer, Sebastien (TU Delft Aerospace Engineering)
Contributor
de Wagter, C. (mentor) 
de Croon, G.C.H.E. (mentor)
Izzo, Dario (mentor)
Ferede, R. (mentor)
Degree granting institution
Delft University of Technology
Programme
Aerospace Engineering
Date
2023-04-05
Abstract
Reaching fast and autonomous flight requires computationally efficient and robust algorithms. To this end, we train Guidance & Control Networks to approximate optimal control policies ranging from energy-optimal to time-optimal flight. We show that the policies become more difficult to learn the closer we get to the time-optimal ’bang-bang’ control profile. We also assess the importance of knowing the maximum angular rotor velocity of the quadcopter and show that over- or underestimating this limit leads to less robust flight. We propose an algorithm to identify the current maximum angular rotor velocity onboard and a network that adapts its policy based on the identified limit. Finally, we extend previous work on Guidance & Control Networks by learning to take consecutive waypoints into account. We fly a 4×3m track in similar lap times as the differential-flatness-based minimum snap benchmark controller while benefiting from the flexibility that Guidance & Control Networks offer.
To reference this document use:
http://resolver.tudelft.nl/uuid:efa9ee47-b200-4a52-b61d-d2c8e5b6fb78
Embargo date
2024-04-10
Part of collection
Student theses
Document type
master thesis
Rights
© 2023 Sebastien Origer