Reconsidering Light Transport : Acquisition and Display of Real-World 
Reflectance and Geometry

Hullin, Matthias B.

doi:10.22028/D291-26045

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Reconsidering Light Transport : Acquisition and Display of Real-World Reflectance and Geometry

Hullin, M. B. (2010). Reconsidering Light Transport: Acquisition and Display of Real-World Reflectance and Geometry. PhD Thesis, Universität des Saarlandes, Saarbrücken. doi:10.22028/D291-26045.

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Item Permalink: https://hdl.handle.net/11858/00-001M-0000-000F-1433-8 Version Permalink: https://hdl.handle.net/21.11116/0000-000E-2E17-6

Genre: Thesis

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http://scidok.sulb.uni-saarland.de/volltexte/2011/4023/ (Any fulltext) Open Access Green

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http://scidok.sulb.uni-saarland.de/doku/lic_ohne_pod.php?la=de (Copyright transfer agreement) Open Access status unknown

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Creators:
Hullin, Matthias B.^{1, 2}, Author
Seidel, Hans-Peter¹, Advisor
Lensch, Hendrik P. A.¹, Referee

Affiliations:
1Computer Graphics, MPI for Informatics, Max Planck Society, ou_40047
2International Max Planck Research School, MPI for Informatics, Max Planck Society, Campus E1 4, 66123 Saarbrücken, DE, ou_1116551

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Abstract: In this thesis, we cover three scenarios that violate common simplifying
assumptions about the nature of light transport.

We begin with the first ingredient to any 3D rendering: a geometry model. Most
3D scanners require the object-of-interest to show diffuse reflectance. The
further a material deviates from the Lambertian model, the more likely these
setups are to produce corrupted results. By placing a traditional laser
scanning setup in a participating (in particular, fluorescent) medium, we have
built a light sheet scanner that delivers robust results for a wide range of
materials, including glass.

Further investigating the phenomenon of fluorescence, we notice that, despite
its ubiquity, it has received moderate attention in computer graphics. In
particular, to date no data-driven reflectance models of fluorescent materials
have been available. To describe the wavelength-shifting reflectance of
fluorescent materials, we define the bispectral bidirectional reflectance and
reradiation distribution function (BRRDF), for which we introduce an
image-based measurement setup as well as an effcient acquisition scheme.

Finally, we envision a computer display that shows materials instead of
colours, and present a prototypical device that can exhibit anisotropic
reflectance distributions similar to com-
mon models in computer graphics.

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Language(s): eng - English

Dates: Modified: 2011-01-27Accepted: 2010-12-15Published Online: 2011-06-25Date issued: 2010

Publication Status: Issued

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Publishing info: Saarbrücken : Universität des Saarlandes

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Rev. Type: -

Identifiers: eDoc: 537322
URN: urn:nbn:de:bsz:291-scidok-40235
BibTex Citekey: HullinPhD2010
DOI: 10.22028/D291-26045
Other: hdl:20.500.11880/26101

Degree: PhD

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