Title :
Camera pose estimation with a two-dimensional marker Grid for haptic navigation
Author :
Amemiya, Tomohiro ; Gomi, Hiroaki
Abstract :
We developed a computer-vision-based position and orientation tracking system for pedestrian navigation with a mobile haptic display. Our developed system tracks the user´s hand and provides the user with a haptic directional cue for way-finding. An off-the-shelf web camera is rigidly affixed to the haptic display the user holds and faces the ceiling where fiducial markers are displayed. The three-dimensional position and orientation of the device can be calculated from the known position and orientation of the fiducial markers that appear in the captured image. The performance of the system was verified using simultaneous measurement comparisons with a high-precision commercial motion capture system.
Keywords :
cameras; computer vision; display devices; haptic interfaces; mobile computing; motion estimation; object tracking; pedestrians; pose estimation; camera pose estimation; computer-vision-based orientation tracking system; computer-vision-based position tracking system; fiducial markers; haptic directional cue; haptic navigation; high-precision commercial motion capture system; mobile haptic display; off-the-shelf Web camera; pedestrian navigation; simultaneous measurement comparisons; three-dimensional orientation; three-dimensional position; two-dimensional marker grid; user hand tracks; Cameras; Estimation; Haptic interfaces; Kalman filters; Mobile communication; Navigation; Sensors; Fiducial markers; Indoor localization; Mobile device;
Conference_Titel :
Virtual Reality (VR), 2013 IEEE
Conference_Location :
Lake Buena Vista, FL
Print_ISBN :
978-1-4673-4795-2
DOI :
10.1109/VR.2013.6549403
