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Open Access Research Article Issue
A discrete microfacet model for transparent glints rendering
Computational Visual Media 2025, 11(5): 953-963
Published: 20 June 2025
Abstract PDF (25.4 MB) Collect
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Many real-life materials have sparkling appearances. Some small flakes on the surface of an object can make a considerable contribution by reflecting or refracting light at a particular angle, eventually causing a sparkling appearance. Most existing approaches have focused on the glinty effects on reflective surfaces. However, transparent glint rendering has not been well studied, even though there are many natural phenomena (e.g., frost) in the real world. Recent studies have proposed the simulation of transparent glints under specific constraints (e.g., limited to the Beckmann distribution and V-groove shadowing-masking function). In this study, we propose a more general transparent glint model by performing a four-dimensional hierarchical search to count the particles located in the pixel footprint and cone around the refracted ray. Our method can produce transparent glint appearances for arbitrary normal distribution functions (e.g., GGX or Beckmann) and converge to a smooth microfacet model with a large particle count.

Open Access Review Article Issue
Recent advances in glinty appearance rendering
Computational Visual Media 2022, 8(4): 535-552
Published: 16 May 2022
Abstract PDF (9.3 MB) Collect
Downloads:160

The interaction between light and materials is key to physically-based realistic rendering. However, it is also complex to analyze, especially when the materials contain a large number of details and thus exhibit "glinty" visual effects. Recent methods of producing glinty appearance are expected to be important in next-generation computer graphics. We provide here a comprehensive survey on recent glinty appearance rendering. We start with a definition of glinty appearance based on microfacet theory, and then summarize research works in terms of representation and practical rendering. We have implemented typical methods using our unified platform and compare them in terms of visual effects, rendering speed, and memory consumption. Finally, we briefly discuss limitations and future research directions. We hope our analysis, implementations, and comparisons will provide insight for readers hoping to choose suitable methods for applications, or carry out research.

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