Title :
Quadrotor position control based on model identification and proportional-derivative algorithm
Author :
Ekawati, Estiyanti ; Widyotriatmo, Augie ; Askandari, Irfan
Author_Institution :
Fac. of Ind. Technol., Instrum. & Control Res. Group, Bandung Inst. of Technol., Bandung, Indonesia
Abstract :
In this paper, position control for a quadrotor in outdoor environment is designed and is validated by experiment. The quadrotor used in the experiment is equipped by accelerometers which are used by an internal controller to maintain its velocity in the global coordinate, and a global position system (GPS) for location determination. A proportional derivative (PD) controller, utilizing feedback of the data location from the GPS, is used to control the motion of quadrotor, reaching a final position from an initial position. Identification of motion model is conducted to determine proper parameters for the controller. The experiments show that the quadrotor can achieve the final positions with acceptable errors in the presence of noise in the GPS measurement and disturbance caused by the wind in outdoor environment.
Keywords :
Global Positioning System; PD control; accelerometers; autonomous aerial vehicles; helicopters; motion control; position control; GPS disturbance; GPS measurement; PD controller; accelerometers; global position system; internal controller; model identification; motion control; outdoor environment; proportional-derivative algorithm; quadrotor position control; Algorithm design and analysis; Global Positioning System; Mathematical model; PD control; Position control; Position measurement; Trajectory; global positioning system; proportional-derivative controller; quadrotor model identification; quadrotor position control;
Conference_Titel :
Technology, Informatics, Management, Engineering, and Environment (TIME-E), 2014 2nd International Conference on
Conference_Location :
Bandung
Print_ISBN :
978-1-4799-4806-2
DOI :
10.1109/TIME-E.2014.7011612
