Title :
Towards a high-end unmanned tri-TiltRotor: design, modeling and hover control
Author :
Papachristos, Christos ; Alexis, Kostas ; Tzes, Anthony
Author_Institution :
Electr. & Comput. Eng. Dept., Univ. of Patras, Rio, Greece
Abstract :
The design process, development considerations as well as hover modeling and control of a high-end capability unmanned Tri-TiltRotor aerial vehicle are the subjects of this article. Tilt-Rotor UAVs efficiently perform as fixed-wing air-craft and as rotorcrafts, being capable of both high-endurance high-speed flight as well as of vertical take-off and landing and precision manoeuvring. The additional integration of high-end computational power and sensors on such a type of aircraft provide a UAV platform with multiple operational usefulness capabilities. The system´s hovering nonlinear dynamics and linearized model based on an identification of its actuation sub-system are presented, along with hovering attitude stabilization experimental results.
Keywords :
aerospace components; attitude control; autonomous aerial vehicles; control system synthesis; helicopters; hovercraft; linearisation techniques; mobile robots; sensors; stability; telerobotics; actuation subsystem; fixed-wing aircraft; high-end computational power; high-end unmanned tri-tilt rotor; high-endurance high-speed flight; hover control; hover modeling; hovering attitude stabilization; linearized model; precision manoeuvring; rotorcrafts; system hovering nonlinear dynamics; tilt-rotor UAV; Actuators; Coherence; Propellers; Rotors; Sensors; Servomotors; Vectors;
Conference_Titel :
Control & Automation (MED), 2012 20th Mediterranean Conference on
Conference_Location :
Barcelona
Print_ISBN :
978-1-4673-2530-1
Electronic_ISBN :
978-1-4673-2529-5
DOI :
10.1109/MED.2012.6265864
