Since new imaging and rendering systems commonly use physically accurate lighting information in the form of High-Dynamic Range data, there is a need for an automatic visual quality assessment of the resulting images. In this work we extend the Visual Difference Predictor (VDP) developed by Daly to handle HDR data. This let us predict if a human observer is able to perceive differences for a pair of HDR images under the adaptation conditions corresponding to the real scene observation
Appearance in High Dynamic Range (HDR) images is controlled by intraocular glare and simultaneous co...
In this paper, we investigate visual similarity for high dynamic range (HDR) images. We collect crow...
International audienceTraditional capture and display devices can only support a limited dynamic ran...
Since new imaging and rendering systems commonly use physically accurate lighting information in the...
New imaging and rendering systems commonly use physically accurate lighting information in the form ...
High Dynamic Range (HDR) signals capture much higher contrasts as compared to the traditional 8-bit ...
We investigate applications of the Visible Difference Predictor (VDP) to steer global illumination c...
High Dynamic Range (HDR) imaging captures a wide range of luminance existing in real-world scenes. D...
International audienceFor High Dynamic Range (HDR) content, the dynamic range of an image is an impo...
HDR is a field in image processing that has received a lot of attention in the later years. Techniqu...
A novel view-independent technique for progressive global illumination computations has been develop...
Due to the much larger luminance and contrast characteristics of high dynamic range (HDR) images, we...
The advances in high dynamic range (HDR) imaging, especially in the display and camera technology, h...
High dynamic range (HDR) imaging is gaining widespread acceptance in computer graphics, photography ...
Abstract. With the emergence of High Dynamic Range (HDR) imaging, the existing visual signal process...
Appearance in High Dynamic Range (HDR) images is controlled by intraocular glare and simultaneous co...
In this paper, we investigate visual similarity for high dynamic range (HDR) images. We collect crow...
International audienceTraditional capture and display devices can only support a limited dynamic ran...
Since new imaging and rendering systems commonly use physically accurate lighting information in the...
New imaging and rendering systems commonly use physically accurate lighting information in the form ...
High Dynamic Range (HDR) signals capture much higher contrasts as compared to the traditional 8-bit ...
We investigate applications of the Visible Difference Predictor (VDP) to steer global illumination c...
High Dynamic Range (HDR) imaging captures a wide range of luminance existing in real-world scenes. D...
International audienceFor High Dynamic Range (HDR) content, the dynamic range of an image is an impo...
HDR is a field in image processing that has received a lot of attention in the later years. Techniqu...
A novel view-independent technique for progressive global illumination computations has been develop...
Due to the much larger luminance and contrast characteristics of high dynamic range (HDR) images, we...
The advances in high dynamic range (HDR) imaging, especially in the display and camera technology, h...
High dynamic range (HDR) imaging is gaining widespread acceptance in computer graphics, photography ...
Abstract. With the emergence of High Dynamic Range (HDR) imaging, the existing visual signal process...
Appearance in High Dynamic Range (HDR) images is controlled by intraocular glare and simultaneous co...
In this paper, we investigate visual similarity for high dynamic range (HDR) images. We collect crow...
International audienceTraditional capture and display devices can only support a limited dynamic ran...