Title :
Attitude stabilization of a Quad-rotor UAV based on rotor speed sensing with accelerometer data estimation via Kalman filtering
Author_Institution :
UMI-LAFMIA, CINVESTAV-IPN Mexico, Mexico City, Mexico
Abstract :
This paper presents a real-time attitude and altitude stabilization of a Quad-rotor UAV that uses Kalman Filter (KF) to estimate the accelerometer measurements from the Inertial Measurement Unit (IMU) to improve the flight in hovering mode to indoor and outdoor applications. It also presents a control strategy based on speed sensing in each brushless DC motors through a reflective sensor, resulting a robust stabilization on the horizontal plane of the vehicle. A Lyapunov candidate function is presented to demonstrate the stability of the overall system (Quad-rotor). Finally, the experimental results of speed sensing control and estimation of the angular position via Kalman Filter (KF) for stabilizing of the Quad-rotor UAV are presented.
Keywords :
Kalman filters; Lyapunov methods; accelerometers; attitude control; autonomous aerial vehicles; brushless DC motors; helicopters; rotors; stability; Kalman filter; Kalman filtering; Lyapunov candidate function; accelerometer data estimation; accelerometer measurement estimation; brushless DC motors; inertial measurement unit; quad-rotor UAV; real-time altitude stabilization; real-time attitude stabilization; reflective sensor; robust stabilization; rotor speed sensing; system stability; Attitude control; Brushless DC motors; Kalman filters; PD control; Robot sensing systems; Rotors; Vehicles; Brushless DC motor control; Kalman filtering; PD algorithm control; Quad-rotor UAV;
Conference_Titel :
Control Conference (CCC), 2012 31st Chinese
Conference_Location :
Hefei
Print_ISBN :
978-1-4673-2581-3
