Resource Saving Approach of Visual Tracking Fiducial Marker Recognition for Unmanned Aerial Vehicle
Arunas Andziulis, Darius Drungilas, Vitalij Glazko, Edmundas Kiseliovas
DOI: 10.15598/aeee.v13i4.1492
Abstract
Unmanned aerial vehicle (UAV) tracking fiducial marker is a challenging problem, because of camera system vibration, which causes visible frame-to-frame jitter in the airborne videos and unclear marker vision. Multirotors have very limited weight carrying, controller, and battery power resources. While obtaining and processing motion blurred images, which have no useful information, requires much more image processing subsystem resources. The paper presents blurry image frame elimination based approach of UAV resource saving fiducial marker visual tracking. The proposed approach integrates accelerometer and visual data processing algorithms to predict image blur and skip blurred frames. Experiments have been performed to verify the validity of the proposed approach.