Title :
Real-time wind speed estimation and compensation for improved flight
Author :
Arain, Bilal ; Kendoul, Farid
Author_Institution :
Australian Res. Centre for Aerosp. Autom., Queensland Univ. of Technol., Brisbane, QLD, Australia
Abstract :
This paper presents the development and experimental validation of a prototype system for online estimation and compensation of wind disturbances onboard small Rotorcraft unmanned aerial systems (RUAS). The proposed approach consists of integrating a small pitot-static system onboard the vehicle and using simple but effective algorithms for estimating the wind speed in real time. The baseline flight controller has been augmented with a feed-forward term to compensate for these wind disturbances, thereby improving the flight performance of small RUAS in windy conditions. The paper also investigates the use of online airspeed measurements in a closed-loop for controlling the RUAS forward motion without the aid of a global positioning system (GPS). The results of more than 80 flights with a RUAS confirm the validity of our approach.
Keywords :
aerospace control; autonomous aerial vehicles; closed loop systems; helicopters; mobile robots; real-time systems; telerobotics; GPS; RUAS; baseline flight controller; closed loop systems; global positioning system; improved flight; online airspeed measurements; online compensation; online estimation; pitot static system; real-time systems; real-time wind speed compensation; real-time wind speed estimation; rotorcraft unmanned aerial systems; wind disturbances; wind speed estimation; Estimation; Global Positioning System; Trajectory; Vectors; Wind speed;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.2014.120236
