Aerodynamic power control for multirotor aerial vehicles

Author

Bangura, Moses ; Hyon Lim ; Kim, H.J. ; Mahony, Robert

Author_Institution

Australian Nat. Univ., Canberra, ACT, Australia

fYear

2014

fDate

May 31 2014-June 7 2014

Firstpage

529

Lastpage

536

Abstract

In this paper, a new motor control input and controller for small-scale electrically powered multirotor aerial vehicles is proposed. The proposed scheme is based on controlling aerodynamic power as opposed to the rotor speed of each motor-rotor system. Electrical properties of the brushless direct current motor are used to both estimate and control the mechanical power of the motor system which is coupled with aerodynamic power using momentum theory analysis. In comparison to current state-of-the-art motor control for multirotor aerial vehicles, the proposed approach is robust to unmodelled aerodynamic effects such as wind disturbances and ground effects. Theory and experimental results are presented to illustrate the performance of the proposed motor control.

Keywords

aerodynamics; machine control; multi-robot systems; power control; rotors; aerodynamic power control; brushless direct current motor; electrical properties; ground effects; mechanical power control; momentum theory analysis; motor control; motor-rotor system; rotor speed; small-scale electrically powered multirotor aerial vehicles; unmodelled aerodynamic effects; wind disturbances; Aerodynamics; Brushless DC motors; Current measurement; Rotors; Vehicles;

fLanguage

English

Publisher

ieee

Conference_Titel

Robotics and Automation (ICRA), 2014 IEEE International Conference on

Conference_Location

Hong Kong

Type

conf

DOI

10.1109/ICRA.2014.6906906

Filename

6906906