research-article

Simulating painted appearance of BTF materials

Authors:

Ta-En Chen,

Wen-Chieh Lin,

Tsung-Shian Huang,

Jung-Hong ChuangAuthors Info & Claims

SA '13: SIGGRAPH Asia 2013 Posters

Article No.: 18, Page 1

https://doi.org/10.1145/2542302.2542324

Published: 19 November 2013 Publication History

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Abstract

Painting is a very common appearance on the surface of a real-world object. On the other hand, the bidirectional texture function (BTF) [Dana et al. 1999] is also commonly used to present realistic appearance of the surface of real-world materials. This motivates us to simulate paints on BTF data since it will further expand the applications and usability. The BTF provides a realistic representation for real-world materials; however, the representation does not allow users to control or edit the BTF data in a simple and effective way. As BTFs are indeed image data, they do not contain any physical information of the material, such as geometry or reflectance. There is no straightforward way to model the physical and chemical process of painting a BTF material. Although some approaches have been proposed to edit BTF data, they did not address the painting problem.

References

[1]

Dana, K., Van-Ginneken, B., Nayar, S., and Koenderink, J. 1999. Reflectance and Texture of Real World Surfaces. ACM Transactions on Graphics (TOG) 18, 1 (Jan), 1--34.

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[2]

Kortüm, G., and Lohr, J. E. 1969. Reflectance spectroscopy: principles, methods, applications. Springer New York.

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[3]

Menzel, N., and Guthe, M. 2009. g-brdfs: An intuitive and editable btf representation. Comput. Graph. Forum 28, 8, 2189--2200.

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[4]

Müller, G., Meseth, J., and Klein, R. 2003. Compression and real-time rendering of measured btfs using local pca. In Vision, Modeling and Visualisation 2003, Akademische Verlagsgesellschaft Aka GmbH, Berlin, T. Ertl, B. Girod, G. Greiner, H. Niemann, H.-P. Seidel, E. Steinbach, and R. Westermann, Eds., 271--280.

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Simulating painted appearance of BTF materials
1. Theory of computation

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Published In

SA '13: SIGGRAPH Asia 2013 Posters

November 2013

41 pages

ISBN:9781450326346

DOI:10.1145/2542302

Conference Chairs:
Baoquan Chen
Shenzhen Institute of Advanced Technology, China
,
Andrei Sharf
Ben Gurion University, Israel

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SIGCHI: ACM Special Interest Group on Computer-Human Interaction

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Association for Computing Machinery

New York, NY, United States

Publication History

Published: 19 November 2013

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SIGGRAPH

SA '13: SIGGRAPH Asia 2013

November 19 - 22, 2013

Hong Kong, Hong Kong

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Overall Acceptance Rate 178 of 869 submissions, 20%

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