Title :
A GPU Sub-pixel Algorithm for Autostereoscopic Virtual Reality
Author :
Kooima, Robert L. ; Peterka, Tom ; Girado, Javier I. ; Ge, Jinghua ; Sandin, Daniel J. ; DeFanti, Thomas A.
Author_Institution :
Electron. Visualization Lab., Illinois Univ., Chicago, IL
Abstract :
Autostereoscopic displays enable unencumbered immersive virtual reality, but at a significant computational expense. This expense impacts the feasibility of autostereo displays in high-performance real-time interactive applications. A new autostereo rendering algorithm named autostereo combiner addresses this problem using the programmable vertex and fragment pipelines of modern graphics processing units (GPUs). This algorithm is applied to the Varrier, a large-scale, head-tracked, parallax barrier autostereo virtual reality platform. In this capacity, the Combiner algorithm has shown performance gains of 4x over traditional parallax barrier rendering algorithms. It has enabled high-performance rendering at sub-pixel scales, affording a 2x increase in resolution and showing a 1.4x improvement in visual acuity
Keywords :
rendering (computer graphics); stereo image processing; virtual reality; Varrier; autostereo combiner; autostereo rendering; autostereoscopic virtual reality; graphics processing units; immersive virtual reality; subpixel algorithm; Computer displays; Computer graphics; Eyes; Interleaved codes; Laboratories; Rendering (computer graphics); Strips; Three dimensional displays; Virtual reality; Visualization; 3D display; Varrier; autostereoscopic display; parallax barrier; virtual reality;
Conference_Titel :
Virtual Reality Conference, 2007. VR '07. IEEE
Conference_Location :
Charlotte, NC
Print_ISBN :
1-4244-0906-3
Electronic_ISBN :
1-4244-0906-3
DOI :
10.1109/VR.2007.352473
