Efficient warping for architectural walkthroughs using layered depth images

Author

Popescu, Voicu ; Lastra, Anselmo ; Aliaga, Daniel ; De Oliveira Neto, Manuel

Author_Institution

North Carolina Univ., Chapel Hill, NC, USA

fYear

1998

fDate

24-24 Oct. 1998

Firstpage

211

Lastpage

215

Abstract

This paper presents efficient image-based rendering techniques used in the context of an architectural walkthrough system. Portals (doors and windows) are rendered by warping layered depth images (LDIs). In a preprocessing phase, for every portal, a number of pre-rendered images are combined into an LDI. The resulting LDI stores, exactly once, all surfaces visible in at least one of the images used in the construction, so most of the exposure errors are efficiently eliminated. The LDI can be warped in the McMillan occlusion compatible ordering. A substantial increase in performance is obtained by warping in parallel. Our parallelization scheme achieves good load balancing, scales with the number of processors, and preserves the occlusion compatible ordering. A fast, conservative reference-image-space clipping algorithm also reduces the warping effort.

Keywords

image morphing; parallel processing; rendering (computer graphics); resource allocation; architectural walkthroughs; exposure errors; image preprocessing; image warping; image-based rendering; layered depth images; load balancing; occlusion compatible ordering; parallelization scheme; performance; reference image space clipping algorithm; Computer errors; Computer graphics; Geometry; Hardware; Layout; Load management; Pixel; Portals; Rendering (computer graphics); Solid modeling;

fLanguage

English

Publisher

ieee

Conference_Titel

Visualization '98. Proceedings

Conference_Location

Research Triangle Park, NC, USA

ISSN

1070-2385

Print_ISBN

0-8186-9176-X

Type

conf

DOI

10.1109/VISUAL.1998.745305

Filename

745305