UV-free Texturing using Sparse Voxel DAGs
Artikel i vetenskaplig tidskrift, 2020

An application may have to load an unknown 3D model and, for enhanced realistic rendering, precompute values over the surface domain, such as light maps, ambient occlusion, or other global-illumination parameters. High-quality uv-unwrapping has several problems, such as seams, distortions, and wasted texture space. Additionally, procedurally generated scene content, perhaps on the fly, can make manual uv unwrapping impossible. Even when artist manipulation is feasible, good uv layouts can require expertise and be highly labor intensive. This paper investigates how to use Sparse Voxel DAGs (or DAGs for short) as one alternative to avoid uv mapping. The result is an algorithm enabling high compression ratios of both voxel structure and colors, which can be important for a baked scene to fit in GPU memory. Specifically, we enable practical usage for an automatic system by targeting efficient real-time mipmap filtering using compressed textures and adding support for individual mesh voxelizations and resolutions in the same DAG. Furthermore, the latter increases the texture-compression ratios by up to 32% compared to using one global voxelization, DAG compression by 10 – 15% compared to using a DAG per mesh, and reduces color-bleeding problems for large mipmap filter sizes. The voxel-filtering is more costly than standard hardware 2D-texture filtering. However, for full HD with deferred shading, it is optimized down to 2.5 ± 0.5 ms for a custom multisampling filtering (e.g., targeted for minification of low-frequency textures) and 5 ± 2 ms for quad-linear mipmap filtering (e.g., for high-frequency textures). Multiple textures sharing voxelization can amortize the majority of this cost. Hence, these numbers involve 1–3 textures per pixel (Fig. 1c).

3D modeling

• Computing methodologies → Texturing

CCS Concepts


Dan Dolonius

Chalmers, Data- och informationsteknik, Datorteknik

Erik Sintorn

Chalmers, Data- och informationsteknik, Datorteknik

Ulf Assarsson

Chalmers, Data- och informationsteknik, Datorteknik

Computer Graphics Forum

0167-7055 (ISSN) 1467-8659 (eISSN)

Vol. 39 2 121-132




Datorseende och robotik (autonoma system)



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