A new error metric targeting rendered high dynamic range images is presented. Our method computes a composite visualization over a number of low dynamic range error maps of exposure compensated and tone mapped image pairs with automatically computed, or manually provided, parameters. We argue that our new error maps predict errors substantially better than metrics previously used in rendering. Source code is released with the hope that our work can be a useful tool for future research
Realistic display of high dynamic range images is a difficult problem. Previous methods for high dyn...
In this paper, we present a new tonemapping operator to display high dynamic range image onto conven...
We introduce a new concept for accelerating realistic image synthesis algorithms. At the core of thi...
In rendering research and development, it is important to have a formalizedway of visualizing and co...
The diversity of display technologies and introduction of high dynamic range imagery introduces the ...
New imaging and rendering systems commonly use physically accurate lighting information in the form ...
Visual error metrics play a fundamental role in the quantification of perceived image similarity. Mo...
The advances in high dynamic range (HDR) imaging, especially in the display and camera technology, h...
A novel paradigm for the visualization of high dynamic range images is presented in this paper. Thes...
Current desktop and hard copy display media are capable of only a limited dynamic range in luminance...
Abstract Various tone mapping operators have been proposed to convert the high dynamic range images ...
Nine algorithms were implemented to overcome the problem associated with rendering high-dynamic-rang...
This paper describes some of the principles in the computation and displaying of High Dynamic Range...
We present a new dynamic range compression method for the reproduction of high dynamic range digital...
Tone mapping operators (TMOs) that convert high dynamic range (HDR) images to standard low dynamic r...
Realistic display of high dynamic range images is a difficult problem. Previous methods for high dyn...
In this paper, we present a new tonemapping operator to display high dynamic range image onto conven...
We introduce a new concept for accelerating realistic image synthesis algorithms. At the core of thi...
In rendering research and development, it is important to have a formalizedway of visualizing and co...
The diversity of display technologies and introduction of high dynamic range imagery introduces the ...
New imaging and rendering systems commonly use physically accurate lighting information in the form ...
Visual error metrics play a fundamental role in the quantification of perceived image similarity. Mo...
The advances in high dynamic range (HDR) imaging, especially in the display and camera technology, h...
A novel paradigm for the visualization of high dynamic range images is presented in this paper. Thes...
Current desktop and hard copy display media are capable of only a limited dynamic range in luminance...
Abstract Various tone mapping operators have been proposed to convert the high dynamic range images ...
Nine algorithms were implemented to overcome the problem associated with rendering high-dynamic-rang...
This paper describes some of the principles in the computation and displaying of High Dynamic Range...
We present a new dynamic range compression method for the reproduction of high dynamic range digital...
Tone mapping operators (TMOs) that convert high dynamic range (HDR) images to standard low dynamic r...
Realistic display of high dynamic range images is a difficult problem. Previous methods for high dyn...
In this paper, we present a new tonemapping operator to display high dynamic range image onto conven...
We introduce a new concept for accelerating realistic image synthesis algorithms. At the core of thi...