Specular manifold sampling for rendering high-frequency caustics and glints

Scattering from specular surfaces produces complex optical effects that are frequently encountered in realistic scenes: intricate caustics due to focused reflection, multiple refraction, and high-frequency glints from specular microstructure. Yet, despite their importance and considerable research t...

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Veröffentlicht in:	ACM transactions on graphics 2020-07, Vol.39 (4), p.149:1-149:15, Article 149
Hauptverfasser:	Zeltner, Tizian, Georgiev, Iliyan, Jakob, Wenzel
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Sprache:	eng
Schlagworte:	Computer graphics Computing methodologies Rendering
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container_title	ACM transactions on graphics
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creator	Zeltner, Tizian Georgiev, Iliyan Jakob, Wenzel
description	Scattering from specular surfaces produces complex optical effects that are frequently encountered in realistic scenes: intricate caustics due to focused reflection, multiple refraction, and high-frequency glints from specular microstructure. Yet, despite their importance and considerable research to this end, sampling of light paths that cause these effects remains a formidable challenge. In this article, we propose a surprisingly simple and general sampling strategy for specular light paths including the above examples, unifying the previously disjoint areas of caustic and glint rendering into a single framework. Given two path vertices, our algorithm stochastically finds a specular subpath connecting the endpoints. In contrast to prior work, our method supports high-frequency normal- or displacement-mapped geometry, samples specular-diffuse-specular ("SDS") paths, and is compatible with standard Monte Carlo methods including unidirectional path tracing. Both unbiased and biased variants of our approach can be constructed, the latter often significantly reducing variance, which may be appealing in applied settings (e.g. visual effects). We demonstrate our method on a range of challenging scenes and evaluate it against state-of-the-art methods for rendering caustics and glints.
doi_str_mv	10.1145/3386569.3392408
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title	Specular manifold sampling for rendering high-frequency caustics and glints
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