Affiliation:
1. Fraunhofer IGD, Darmstadt, Germany
2. Norwegian University of Science and Technology, Gjøvik, Norway
3. Fraunhofer IGD, Grenoble, France
Abstract
Goniochromatic materials and objects appear to have different colors depending on viewing direction. This occurs in nature, such as in wood or minerals, and in human-made objects such as metal and effect pigments. In this paper, we propose algorithms to control multi-material 3D printers to produce goniochromatic effects on arbitrary surfaces by procedurally augmenting the input surface with meso-facets, which allow distinct colors to be assigned to different viewing directions of the input surface while introducing minimal changes to that surface. Previous works apply only to 2D or 2.5D surfaces, require multiple fabrication technologies, or make considerable changes to the input surface and require special post-processing, whereas our approach requires a single fabrication technology and no special post-processing. Our framework is general, allowing different generating functions for both the shape and color of the facets. Working with implicit representations allows us to generate geometric features at the limit of device resolution without tessellation. We evaluate our approach for performance, showing negligible overhead compared to baseline color 3D print processing, and for goniochromatic quality.
Funder
HORIZON EUROPE Marie Sklodowska-Curie Actions
Publisher
Association for Computing Machinery (ACM)
Subject
Computer Graphics and Computer-Aided Design
Cited by
2 articles.
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1. Computational Illusion Knitting;ACM Transactions on Graphics;2024-07-19
2. Cuttlefish: Pushing the Limits of Graphical 3-D Printing;IEEE Computer Graphics and Applications;2023-09-01