Full control of a quadrotor

Author

Bouabdallah, Samir ; Siegwart, Roland

Author_Institution

ETH Zurich, Zurich

fYear

2007

fDate

Oct. 29 2007-Nov. 2 2007

Firstpage

153

Lastpage

158

Abstract

The research on autonomous miniature flying robots has intensified considerably thanks to the recent growth of civil and military interest in unmanned aerial vehicles (UAV). This paper summarizes the final results of the modeling and control parts of OS4 project, which focused on design and control of a quadrotor. It introduces a simulation model which takes into account the variation of the aerodynamical coefficients due to vehicle motion. The control parameters found with this model are successfully used on the helicopter without re-tuning. The last part of this paper describes the control approach (integral backstepping) and the scheme we propose for full control of quadrotors (attitude, altitude and position). Finally, the results of autonomous take-off, hover, landing and collision avoidance are presented.

Keywords

aerospace robotics; aircraft control; collision avoidance; mobile robots; remotely operated vehicles; OS4 project; aerodynamical coefficients; autonomous hover; autonomous landing; autonomous miniature flying robots; autonomous take-off; collision avoidance; helicopter; integral backstepping; quadrotor control; unmanned aerial vehicles; vehicle motion; Aerodynamics; Backstepping; Blades; Helicopters; Intelligent actuators; Intelligent robots; Intelligent sensors; Robot kinematics; USA Councils; Unmanned aerial vehicles;

fLanguage

English

Publisher

ieee

Conference_Titel

Intelligent Robots and Systems, 2007. IROS 2007. IEEE/RSJ International Conference on

Conference_Location

San Diego, CA

Print_ISBN

978-1-4244-0912-9

Electronic_ISBN

978-1-4244-0912-9

Type

conf

DOI

10.1109/IROS.2007.4399042

Filename

4399042