Title :
Three-dimensional display rendering acceleration using occlusion camera reference images
Author :
Popescu, Voicu ; Rosen, Paul ; Aliaga, Daniel G.
Author_Institution :
Dept. of Comput. Sci., Purdue Univ., West Lafayette, IN
Abstract :
Volumetric three-dimensional (3-D) displays allow the user to explore a 3-D scene free of joysticks, keyboards, goggles, or trackers. For non-trivial scenes, computing and transferring a 3-D image to the display takes hundreds of seconds, which is a serious bottleneck for many applications. We propose to represent the 3-D scene with an occlusion camera reference image (OCRI). The OCRI is a compact scene representation that stores only and all scene samples that are visible from a viewing volume centered at a reference viewpoint. The OCRI enables computing and transferring the 3-D image an order of magnitude faster than when the entire scene is processed. The OCRI approach can be readily applied to several volumetric display technologies; we have tested the OCRI approach with good results on a volumetric display that creates a 3-D image by projecting 2-D scene slices onto a rotating screen
Keywords :
computer displays; computer graphics; image processing; rendering (computer graphics); three-dimensional displays; 3D images; OCRI approach; occlusion camera reference images; rendering acceleration; scene representation; volumetric 3D displays; Acceleration; Cameras; Computer displays; Computer science; Eye protection; Head; Layout; Rendering (computer graphics); Three dimensional displays; Two dimensional displays; Computer graphics; image-based rendering (IBR); rendering acceleration; three-dimensional (3-D) displays;
Journal_Title :
Display Technology, Journal of
DOI :
10.1109/JDT.2006.878776
