Title :
A robust inside-out approach for 3D interaction with large displays
Author :
Scherfgen, David ; Herpers, Rainer ; Saitov, Timur
Author_Institution :
Inst. of Visual Comput., Bonn-Rhein-Sieg Univ. of Appl. Sci., St. Augustin, Germany
Abstract :
In this contribution, we present several improvements to previous “inside-out” techniques for pointing interaction with large display systems. Fiducial markers are virtually projected from an interaction device´s built-in camera onto the displays and overlaid to the display content. We reconstruct the 6-DoF camera pose by tracking these markers in real-time. For increased robustness, the marker pattern is dynamically adapted. We address display lag and high pixel response times by precisely timing image captures. Pointing locations are measured with sub-millimeter precision and camera positions with sub-centimeter precision. An update rate of 60 Hz and a latency of 24 ms were achieved. Our technique performed comparably to an OptiTrack system in 2D target selection tasks.
Keywords :
cameras; image capture; interactive systems; liquid crystal displays; pose estimation; 2D target selection tasks; 3D interaction; 6-DoF camera pose; OptiTrack system; camera positions; display content; display lag; dynamically adapted marker pattern; image capture; interaction device built-in camera; large-display systems; marker tracking; pixel response times; pointing interaction; pointing location measurement; robust inside-out approach; virtually projected Fiducial markers; Calibration; Cameras; Delays; Feature extraction; Jitter; Robustness; Three-dimensional displays; Pointing; pointing devices;
Conference_Titel :
3D User Interfaces (3DUI), 2015 IEEE Symposium on
Conference_Location :
Arles
DOI :
10.1109/3DUI.2015.7131739
