Eric P. Lafortune scite author profile

We introduce a new class of primitive functions with non-linear parameters for representing light reflectance functions. The functions are reciprocal, energy-conserving and expressive. They can capture important phenomena such as off-specular reflection, increasing reflectance and retro-reflection. We demonstrate this by fitting sums of primitive functions to a physically-based model and to actual measurements. The resulting representation is simple, compact and uniform. It can be applied efficiently in analytical and Monte Carlo computations.

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Image-Based BRDF Measurement Including Human Skin

Marschner

et al. 1999

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Rendering Participating Media with Bidirectional Path Tracing

Lafortune

Willems

1996

120

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Image-based bidirectional reflectance distribution function measurement

Marschner¹,

Westin²,

Lafortune³

et al. 2000

Appl. Opt.

160

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We present a new image-based process for measuring a surface's bidirectional reflectance rapidly, completely, and accurately. Requiring only two cameras, a light source, and a test sample of known shape, our method generates densely spaced samples covering a large domain of illumination and reflection directions. We verified our measurements both by tests of internal consistency and by comparison against measurements made with a gonioreflectometer. The resulting data show accuracy rivaling that of custom-built dedicated instruments.

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A 5D Tree to Reduce the Variance of Monte Carlo Ray Tracing

Lafortune

Willems

1995

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Eric P. Lafortune

Non-linear approximation of reflectance functions

Image-Based BRDF Measurement Including Human Skin

Rendering Participating Media with Bidirectional Path Tracing

Image-based bidirectional reflectance distribution function measurement

A 5D Tree to Reduce the Variance of Monte Carlo Ray Tracing

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