Neural SSS: Lightweight Object Appearance Representation

T. Tg; D. M. Tran; H. W. Jensen; R. Ramamoorthi; J. R. Frisvad

doi:10.1111/cgf.15158

Neural SSS: Lightweight Object Appearance Representation

T. Tg
, D. M. Tran
, H. W. Jensen
, R. Ramamoorthi
, J. R. Frisvad

KeyShot
University of California

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

We present a method for capturing the BSSRDF (bidirectional scattering-surface reflectance distribution function) of arbitrary geometry with a neural network. We demonstrate how a compact neural network can represent the full 8-dimensional light transport within an object including heterogeneous scattering. We develop an efficient rendering method using importance sampling that is able to render complex translucent objects under arbitrary lighting. Our method can also leverage the common planar half-space assumption, which allows it to represent one BSSRDF model that can be used across a variety of geometries. Our results demonstrate that we can render heterogeneous translucent objects under arbitrary lighting and obtain results that match the reference rendered using volumetric path tracing.

Original language	English
Article number	e15158
Journal	Computer Graphics Forum
Volume	43
Issue number	4
Number of pages	14
ISSN	0167-7055
DOIs	https://doi.org/10.1111/cgf.15158
Publication status	Published - 2024

Keywords

Neural networks
Computing methodologies → Reflectance modeling

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title = "Neural SSS: Lightweight Object Appearance Representation",

abstract = "We present a method for capturing the BSSRDF (bidirectional scattering-surface reflectance distribution function) of arbitrary geometry with a neural network. We demonstrate how a compact neural network can represent the full 8-dimensional light transport within an object including heterogeneous scattering. We develop an efficient rendering method using importance sampling that is able to render complex translucent objects under arbitrary lighting. Our method can also leverage the common planar half-space assumption, which allows it to represent one BSSRDF model that can be used across a variety of geometries. Our results demonstrate that we can render heterogeneous translucent objects under arbitrary lighting and obtain results that match the reference rendered using volumetric path tracing.",

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T1 - Neural SSS: Lightweight Object Appearance Representation

AU - Tg, T.

AU - Tran, D. M.

AU - Jensen, H. W.

AU - Ramamoorthi, R.

AU - Frisvad, J. R.

PY - 2024

Y1 - 2024

N2 - We present a method for capturing the BSSRDF (bidirectional scattering-surface reflectance distribution function) of arbitrary geometry with a neural network. We demonstrate how a compact neural network can represent the full 8-dimensional light transport within an object including heterogeneous scattering. We develop an efficient rendering method using importance sampling that is able to render complex translucent objects under arbitrary lighting. Our method can also leverage the common planar half-space assumption, which allows it to represent one BSSRDF model that can be used across a variety of geometries. Our results demonstrate that we can render heterogeneous translucent objects under arbitrary lighting and obtain results that match the reference rendered using volumetric path tracing.

AB - We present a method for capturing the BSSRDF (bidirectional scattering-surface reflectance distribution function) of arbitrary geometry with a neural network. We demonstrate how a compact neural network can represent the full 8-dimensional light transport within an object including heterogeneous scattering. We develop an efficient rendering method using importance sampling that is able to render complex translucent objects under arbitrary lighting. Our method can also leverage the common planar half-space assumption, which allows it to represent one BSSRDF model that can be used across a variety of geometries. Our results demonstrate that we can render heterogeneous translucent objects under arbitrary lighting and obtain results that match the reference rendered using volumetric path tracing.

KW - Neural networks

KW - Computing methodologies → Reflectance modeling

U2 - 10.1111/cgf.15158

DO - 10.1111/cgf.15158

M3 - Journal article

SN - 0167-7055

VL - 43

JO - Computer Graphics Forum

JF - Computer Graphics Forum

IS - 4

M1 - e15158

ER -

Neural SSS: Lightweight Object Appearance Representation

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