Title :
On-board object tracking control of a quadcopter with monocular vision
Author :
Kendall, Alex G. ; Salvapantula, Nishaad N. ; Stol, Karl A.
Author_Institution :
Dept. of Mech. Eng., Univ. of Auckland, Auckland, New Zealand
Abstract :
The development of an object tracking controller for a quadcopter using an on-board vision system is presented. Using low-cost components, a novel system is introduced that operates entirely on board the quadcopter, without external localization sensors or GPS. A low-frequency monocular computer vision algorithm is applied in closed-loop control to track an object of known color. Parallel PID controllers for aircraft bearing, relative height and range are implemented with feedback from object offset and size in the image frame. The noise exaggerated by measuring range from object pixel area is mitigated with a Kalman filter. Stable closed-loop tracking is demonstrated experimentally for all three control axes when tested individually and coupled together. Individual settling times were under 10 seconds and coupled control settling times under 25 seconds.
Keywords :
Kalman filters; autonomous aerial vehicles; closed loop systems; control engineering computing; feedback; helicopters; object detection; object tracking; stability; three-term control; Kalman filter; closed-loop control; low-frequency monocular computer vision algorithm; monocular vision; object offset feedback; object pixel area; object tracking controller; on-board object tracking control; parallel PID controllers; quadcopter UAV; stable closed-loop tracking; unmanned aerial vehicle; Cameras; Computer vision; Kalman filters; Machine vision; Noise; Object tracking; Program processors;
Conference_Titel :
Unmanned Aircraft Systems (ICUAS), 2014 International Conference on
Conference_Location :
Orlando, FL
DOI :
10.1109/ICUAS.2014.6842280
