We propose a deep representation of appearance, i. e., the relation of color, surface orientation, viewer position, material and illumination. Previous approaches have used deep learning to extract classic appearance representations relating to reflectance model parameters (e. g., Phong) or illumination (e. g., HDR environment maps). We suggest to directly represent appearance itself as a network we call a Deep Appearance Map (DAM). This is a 4D generalization over 2D reflectance maps, which held the view direction fixed. First, we show how a DAM can be learned from images or video frames and later be used to synthesize appearance, given new surface orientations and viewer positions. Second, we demonstrate how another network can be used to...
How much does a single image reveal about the environment it was taken in? In this paper, we investi...
Creating realistic computer generated imagery is essential for modern movies and video games. Recrea...
We develop a new approach to inferring lightness, the perceived reflectance of surfaces, from a sing...
We propose a deep representation of appearance, i. e. the relation of color, surface orientation, vi...
Undoing the image formation process and therefore de-composing appearance into its intrinsic propert...
© 2016 IEEE. Undoing the image formation process and therefore decomposing appearance into its intri...
International audienceTexture, highlights, and shading are some of many visual cues that allow human...
In this paper, we present a method that estimates reflectance and illumination information from a si...
Recovering natural illumination from a single Low-Dynamic Range (LDR) image is a challenging task. T...
How we perceive property of surfaces with distinct geometry and reflectance under various illuminati...
—In this paper, we present a method that estimates reflectance and illumination information from a s...
Department of Electrical EngineeringHow we perceive quality of surface with various geometry and ref...
Modeling the appearance of real scenes from captured images is one key problem in computer graphics ...
Statistical shape and texture appearance models are powerful image representations, but previously h...
In this paper we are extracting surface reflectance and natural environmental illumination from a re...
How much does a single image reveal about the environment it was taken in? In this paper, we investi...
Creating realistic computer generated imagery is essential for modern movies and video games. Recrea...
We develop a new approach to inferring lightness, the perceived reflectance of surfaces, from a sing...
We propose a deep representation of appearance, i. e. the relation of color, surface orientation, vi...
Undoing the image formation process and therefore de-composing appearance into its intrinsic propert...
© 2016 IEEE. Undoing the image formation process and therefore decomposing appearance into its intri...
International audienceTexture, highlights, and shading are some of many visual cues that allow human...
In this paper, we present a method that estimates reflectance and illumination information from a si...
Recovering natural illumination from a single Low-Dynamic Range (LDR) image is a challenging task. T...
How we perceive property of surfaces with distinct geometry and reflectance under various illuminati...
—In this paper, we present a method that estimates reflectance and illumination information from a s...
Department of Electrical EngineeringHow we perceive quality of surface with various geometry and ref...
Modeling the appearance of real scenes from captured images is one key problem in computer graphics ...
Statistical shape and texture appearance models are powerful image representations, but previously h...
In this paper we are extracting surface reflectance and natural environmental illumination from a re...
How much does a single image reveal about the environment it was taken in? In this paper, we investi...
Creating realistic computer generated imagery is essential for modern movies and video games. Recrea...
We develop a new approach to inferring lightness, the perceived reflectance of surfaces, from a sing...