Print Email Facebook Twitter Rigid airborne docking between a fixed-wing UAV and an over-actuated multicopter Title Rigid airborne docking between a fixed-wing UAV and an over-actuated multicopter Author Laffita van den Hove d'Ertsenryck, Jonathas (TU Delft Aerospace Engineering) Contributor Smeur, E.J.J. (mentor) Remes, B.D.W. (graduation committee) Degree granting institution Delft University of Technology Corporate name Delft University of Technology Programme Aerospace Engineering Date 2023-07-07 Abstract Fixed-wing aircraft fly longer, faster, and further than rotorcraft, but cannot take off or land vertically. Hybrid drones combine VTOL with a wing for forward flight, but the hovering system generally makes them less efficient than a pure fixed-wing. We propose an alternative, in which a rotorcraft is used to assist the fixed-wing UAV with the VTOL portions of the flight. This paper takes the first steps towards this alternative by developing and testing an overactuated rotorcraft that can autonomously dock onto a target at fixed-wing velocities. The control system uses Incremental Non-Linear Dynamic Inversion Control (INDI) to achieve linear accelerations with lateral and longitudinal motors, enabling robust horizontal control independent of attitude. A relative guidance algorithm for the docking approach path is presented, along with a vision sensing approach using ArUco markers and IR LEDs. Successful docking and separation were achieved in the wind tunnel at speeds of up to $15$m/s. To reference this document use: http://resolver.tudelft.nl/uuid:6b397485-750f-4e97-99ec-536ae2933d60 Part of collection Student theses Document type master thesis Rights © 2023 Jonathas Laffita van den Hove d'Ertsenryck Files PDF Laffita_MASTER_THESIS_REPORT.pdf 8.27 MB Close viewer /islandora/object/uuid:6b397485-750f-4e97-99ec-536ae2933d60/datastream/OBJ/view