Rotary-wing MAV modeling & control for indoor scenarios

Author

Barrientos, A. ; Colorado, J. ; Martinez, A. ; Valente, Joao

fYear

2010

fDate

14-17 March 2010

Firstpage

1475

Lastpage

1480

Abstract

This paper is about modeling and control of Miniature Aerial Vehicles -MAVs for indoor scenarios, specially using, micro coaxial and quadrotor systems. Mathematical models for simulation and control are introduced and subsequently applied to the commercial aircraft: the DraganFlyer quadrotor and the Micro-Mosquito coaxial flying vehicle. The MAVs have been hardware-modified in order to perform experimental autonomous flight. A novel approach for control based on Hybrid Backstepping and the Frenet-Serret theory is used for attitude stabilization (Backstepping+FST), introducing a desired attitude angle acceleration function dependent on aircraft velocity. Results of autonomous hovering and tracking are presented based on the scheme we propose for control and attitude stabilization when MAV is maneuvering at moderate speeds.

Keywords

aircraft; attitude control; modelling; rotors; simulation; stability; tracking; DraganFlyer quadrotor; Frenet-Serret theory; attitude stabilization; autonomous flight; autonomous hovering; commercial aircraft; hybrid backstepping; indoor scenarios; micro coaxial systems; micro-mosquito coaxial flying vehicle; miniature aerial vehicles; quadrotor systems; rotary-wing MAV control; rotary-wing MAV modeling; tracking; Acceleration; Aerospace control; Aircraft; Attitude control; Coaxial components; Navigation; Remotely operated vehicles; Robot sensing systems; Vehicle dynamics; Velocity control;

fLanguage

English

Publisher

ieee

Conference_Titel

Industrial Technology (ICIT), 2010 IEEE International Conference on

Conference_Location

Vi a del Mar

Print_ISBN

978-1-4244-5695-6

Electronic_ISBN

978-1-4244-5696-3

Type

conf

DOI

10.1109/ICIT.2010.5472486

Filename

5472486