Space-Optimized Texture Atlases for 3D Scenes with Per-polygon Textures

Real-time rendering of massively textured urban scenes is still a challenging problem in computer graphics. Texture atlases and the recently-introduced texture arrays have proven to be a powerful tool to accelerate the rendering of such scenes by minimizing the number of texture switches. In this pa...

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Bibliographic Details
Published in2010 18th Pacific Conference on Computer Graphics and Applications pp. 14 - 23
Main Authors Martinez, Jonas, Andujar, Carlos
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.09.2010
Subjects
Frequency domain analysis
Image coding
Mesh generation
Rendering (computer graphics)
Surface texture
texture optimization
texture packing
texture wrapping
Three dimensional displays
urban rendering
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Summary:Real-time rendering of massively textured urban scenes is still a challenging problem in computer graphics. Texture atlases and the recently-introduced texture arrays have proven to be a powerful tool to accelerate the rendering of such scenes by minimizing the number of texture switches. In this paper we present a perception-based scheme for generating space-optimized texture atlases from 3D scenes with per-polygon textures. Key elements of our approach include the use of perceptual metrics to allocate texture space in accordance to the visual content of each chart, a joint encoding of chart size and position coordinates to provide within-chart tiling support with no space overhead, and a packing strategy achieving full occupancy of the texture atlas. We demonstrate our optimization scheme in the context of real-time navigation through a gigatexel urban model. Our scheme significantly decreases texture memory usage and provides dramatic speed-up factors without noticeable loss in visual quality.
ISBN:9781424482887
1424482887
DOI:10.1109/PacificGraphics.2010.10