Capturing and rendering an image that fulfills the observer's expectations is a difficult task. This is due to the fact that the signal reaching the eye is processed by a complex mechanism before forming a percept, whereas a capturing device only retains the physical value of light intensities. It is especially difficult to render complex scenes with highly varying luminances. For example, a picture taken inside a room where objects are visible through the windows will not be rendered correctly by a global technique. Either details in the dim room will be hidden in shadow or the objects viewed through the window will be too bright. The image has to be treated locally to resemble more closely to what the observer remembers. The purpose of th...
Abstract Contrast enhancement is a classic image restoration technique that traditionally has been p...
In the last published concept (1986) for a Retinex computation, Edwin Land introduced a center/surro...
When viewing images on a monitor, we are adapted to the lighting conditions of our viewing environme...
We propose a new method to render high dynamic range images that models global and local adaptation ...
The retinex is a human perception-based image processing algorithm which provides color constancy an...
This paper develops a novel image/video enhancement technique that integrates a physics-based image ...
The human vision system has adaptation mechanisms that cannot be managed with the classic tri-stimul...
We propose a new method to render high dynamic range images that models global and local adaptation ...
Retinex is a colour vision model introduced by Land more than 40 years ago. Since then, it has also ...
In this paper, we propose a novel contrast enhancement algorithm for low light level images, which p...
The Human Vision System (HVS) is responsible for color constancy and dynamic range. It is reasonably...
Retinex image enhancement technique is an attempt to model human vision system. Scope of this nonlin...
A short but comprehensive review of Retinex has been presented in this paper. Retinex theory aims to...
International audienceWe present a tone mapping algorithm that is derived from a model of retinal pr...
Images acquired with capture devices often show chrmoatic shifts when compared to the original scene...
Abstract Contrast enhancement is a classic image restoration technique that traditionally has been p...
In the last published concept (1986) for a Retinex computation, Edwin Land introduced a center/surro...
When viewing images on a monitor, we are adapted to the lighting conditions of our viewing environme...
We propose a new method to render high dynamic range images that models global and local adaptation ...
The retinex is a human perception-based image processing algorithm which provides color constancy an...
This paper develops a novel image/video enhancement technique that integrates a physics-based image ...
The human vision system has adaptation mechanisms that cannot be managed with the classic tri-stimul...
We propose a new method to render high dynamic range images that models global and local adaptation ...
Retinex is a colour vision model introduced by Land more than 40 years ago. Since then, it has also ...
In this paper, we propose a novel contrast enhancement algorithm for low light level images, which p...
The Human Vision System (HVS) is responsible for color constancy and dynamic range. It is reasonably...
Retinex image enhancement technique is an attempt to model human vision system. Scope of this nonlin...
A short but comprehensive review of Retinex has been presented in this paper. Retinex theory aims to...
International audienceWe present a tone mapping algorithm that is derived from a model of retinal pr...
Images acquired with capture devices often show chrmoatic shifts when compared to the original scene...
Abstract Contrast enhancement is a classic image restoration technique that traditionally has been p...
In the last published concept (1986) for a Retinex computation, Edwin Land introduced a center/surro...
When viewing images on a monitor, we are adapted to the lighting conditions of our viewing environme...