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Neural Layered BRDFs

Jiahui Fan, Beibei Wang, Miloš Hašan, Jian Yang, Ling‐Qi Yan

202225 citationsDOI

Abstract

Bidirectional reflectance distribution functions (BRDFs) are pervasively used in computer graphics to produce realistic physically-based appearance. Many common materials in the real world have more than one layer, like wood, skin, car paint, and many decorative materials. However, precise simulation of layered material optics is non-trivial. The most accurate approaches rely on Monte Carlo random walks to simulate the light transport within the layers, leading to high variance and cost. Other approaches are efficient, but less accurate. In this paper, we propose to perform layering in the neural space, by compressing BRDFs into latent codes via a proposed representation neural network, and performing a learned layering operation on these latent vectors via a layering network. Our BRDF evaluation is noise-free and computationally efficient, compared to the state-of-the-art approach; it is also a first step towards a “neural algebra” of operations on BRDFs in a latent space.

Topics & Concepts

LayeringComputer scienceArtificial neural networkRepresentation (politics)GraphicsGlobal illuminationDeep neural networksComputer graphicsArtificial intelligenceMonte Carlo methodBidirectional reflectance distribution functionNoise (video)Computer graphics (images)AlgorithmReflectivityImage (mathematics)MathematicsRendering (computer graphics)OpticsPhysicsStatisticsBotanyBiologyPolitical sciencePoliticsLawComputer Graphics and Visualization Techniques3D Shape Modeling and AnalysisColor Science and Applications
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