State of the Art in Efficient Translucent Material Rendering with BSSRDF

Liang, Shiyu; Gao, Yang; Hu, Chonghao; Zhou, Peng; Hao, Aimin; Wang, Lili; Qin, Hong

doi:10.1111/cgf.14998

Computer Graphics Forum

2023

DOI: 10.1111/cgf.14998

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State of the Art in Efficient Translucent Material Rendering with BSSRDF

Shiyu Liang,

Yang Gao,

Chonghao Hu

et al.

Abstract: Sub‐surface scattering is always an important feature in translucent material rendering. When light travels through optically thick media, its transport within the medium can be approximated using diffusion theory, and is appropriately described by the bidirectional scattering‐surface reflectance distribution function (BSSRDF). BSSRDF methods rely on assumptions about object geometry and light distribution in the medium, which limits their applicability to general participating media problems. However, despite… Show more

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2024

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ReSTIR Subsurface Scattering for Real-Time Path Tracing

Werner,

Schüßler,

Dachsbacher

2024

Proc. ACM Comput. Graph. Interact. Tech.

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Subsurface scattering is an important visual cue and in real-time rendering it is often approximated using screen-space algorithms. Path tracing with the diffusion approximation can easily overcome the limitations of these algorithms, but increases image noise. We improve its efficiency by applying reservoir-based spatiotemporal importance resampling (ReSTIR) to subsurface light transport paths. For this, we adopt BSSRDF importance sampling for generating candidates. Further, spatiotemporal reuse requires shifting paths between domains. We observe that different image regions benefit most from either reconnecting through the translucent object (reconnection shift), or one vertex later (delayed reconnection shift). We first introduce a local subsurface scattering specific criterion for a hybrid shift that deterministically selects one of the two shifts for a path. Due to the locality, it cannot always choose the most efficient shift, e.g. near shadow boundaries. Therefore, we additionally propose a novel sequential shift to combine multiple shift mappings: We execute subsequent resampling passes, each one using a different shift, which does not require to deterministically choose a shift for a path. Instead, resampling can pick the most successful shift implicitly. Our method achieves realtime performance and significantly reduces noise and denoising artifacts in regions with visible subsurface scattering compared to standard path tracing with equal render time.

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ReSTIR Subsurface Scattering for Real-Time Path Tracing

Werner,

Schüßler,

Dachsbacher

2024

Proc. ACM Comput. Graph. Interact. Tech.

View full text Add to dashboard Cite

show abstract

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State of the Art in Efficient Translucent Material Rendering with BSSRDF

Cited by 1 publication

References 150 publications

ReSTIR Subsurface Scattering for Real-Time Path Tracing

ReSTIR Subsurface Scattering for Real-Time Path Tracing

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