. "305044" . "20"^^ . "RIV/67985556:_____/09:00329827!RIV10-MSM-67985556" . . "Haindl, Michal" . . . "IEEE Transactions on Pattern Analysis and Machine Intelligence" . . "Bidirectional Texture Function Modeling: State of the Art Survey"@en . . . . "31" . "Bidirectional Texture Function Modeling: State of the Art Survey" . . "P(1ET400750407), P(1M0572), P(2C06019), P(GA102/08/0593), Z(AV0Z10750506)" . "11" . . . . "BTF; surface texture; 3D texture"@en . "Bidirectional Texture Function Modeling: State of the Art Survey" . . "2"^^ . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "RIV/67985556:_____/09:00329827" . "Bidirectional Texture Function Modeling: State of the Art Survey"@en . "Filip, Ji\u0159\u00ED" . . "An ever-growing number of real world computer vision applications require classification, segmentation, retrieval, or realistic rendering of genuine materials. However, the appearance of real materials dramatically changes with illumination and viewing variations. Thus, the only reliable representation of material visual properties requires capturing of its reflectance in as wide range of light and camera position combinations as possible. This is a principle of the recent most advanced texture representation, the Bidirectional Texture Function (BTF). Multispectral BTF is a seven-dimensional function that depends on view and illumination directions as well as on planar texture coordinates. BTF is typically obtained by measurement of thousands of images covering many combinations of illumination and viewing angles. However, the large size of such measurements has prohibited their practical exploitation in any sensible application until recently." . . . "2"^^ . "000269767600001" . . "[698893567F61]" . . "An ever-growing number of real world computer vision applications require classification, segmentation, retrieval, or realistic rendering of genuine materials. However, the appearance of real materials dramatically changes with illumination and viewing variations. Thus, the only reliable representation of material visual properties requires capturing of its reflectance in as wide range of light and camera position combinations as possible. This is a principle of the recent most advanced texture representation, the Bidirectional Texture Function (BTF). Multispectral BTF is a seven-dimensional function that depends on view and illumination directions as well as on planar texture coordinates. BTF is typically obtained by measurement of thousands of images covering many combinations of illumination and viewing angles. However, the large size of such measurements has prohibited their practical exploitation in any sensible application until recently."@en . . . "0162-8828" . .