Title :
3D-Printing Spatially Varying BRDFs
Author :
Rouiller, Olivier ; Bickel, B. ; Kautz, Jan ; Matusik, Wojciech ; Alexa, Marc
Author_Institution :
Tech. Univ. of Berlin, Berlin, Germany
Abstract :
A new method fabricates custom surface reflectance and spatially varying bidirectional reflectance distribution functions (svBRDFs). Researchers optimize a microgeometry for a range of normal distribution functions and simulate the resulting surface´s effective reflectance. Using the simulation´s results, they reproduce an input svBRDF´s appearance by distributing the microgeometry on the printed material´s surface. This method lets people print svBRDFs on planar samples with current 3D printing technology, even with a limited set of printing materials. It extends naturally to printing svBRDFs on arbitrary shapes.
Keywords :
normal distribution; reflectivity; rendering (computer graphics); solid modelling; three-dimensional printing; 3D printing technology; arbitrary shape; bidirectional reflectance distribution function; custom surface reflectance fabrication; planar sample; printing material; spatially varying BRDF; svBRDF; Computational modeling; Fabrication; Face recognition; Printers; Printing; Solid modeling; Three-dimensional displays; 3D printing; BRDF; NDF; bidirectional reflectance distribution function; computer graphics; microgeometry; normal distribution function; spatially varying bidirectional reflectance distribution function; surface reflectance; svBRDF;
Journal_Title :
Computer Graphics and Applications, IEEE
DOI :
10.1109/MCG.2013.82
