Add to ORKGObjects photographed in an aerial scene are ordered into frequency histograms in terms of log exposure on the film. A statistical analysis shows that each distribution actually contains two separate distributions; one of objects in daylight, the other of objects in shadows. The difference is due to a variation in apparent luminance of the objects. For example, as an asphalt road passes in and out of a shadow, its absolute reflectance doesn\u27t change but its apparent luminance does. It is also shown that the ratio of the derived shadow distribution to the daylight distribution is exactly the same as the ratio of skylight to daylight illumination
Introduction One goal of scene understanding is to find the shape and color of surfaces in a scene ...
The evaluation of both visual and nonvisual effects from the spectral power distribution (SPD) of ou...
A theoretical and experimental investigation of the causes of the reduction of the contrast in the s...
Objects photographed in an aerial scene are ordered into frequency histograms in terms of log exposu...
Shadows, the common phenomena in most outdoor scenes, are illuminated by diffuse skylight whereas sh...
Doctor of Philosophy and was awarded by Brunel University LondonInthisthesiswefocusontheimpactofillu...
Abstract—In this paper, we introduce a method for recovering an illumination distribution of a scene...
The object of this work has been the improvement of the existing knowledge of the spectral distribut...
The light field The spectral power distribution of the light emitted by the Sun is almost constant. ...
The illumination in natural environments varies through the day. Stable inferences about surface col...
The paper proposes a technique for estimation outdoor illumination conditions in terms of sun and sk...
International audienceThe article for the specific region segmentation is discussed here. This paper...
The human visual system is adept at detecting and encoding statistical regularities in its spatio-te...
AbstractNatural scenes often contain variations in local luminance as a result of cast shadows and i...
Illumination tends to vary in natural visual scenes, incorporating well-lit areas and darker regions...
Introduction One goal of scene understanding is to find the shape and color of surfaces in a scene ...
The evaluation of both visual and nonvisual effects from the spectral power distribution (SPD) of ou...
A theoretical and experimental investigation of the causes of the reduction of the contrast in the s...
Objects photographed in an aerial scene are ordered into frequency histograms in terms of log exposu...
Shadows, the common phenomena in most outdoor scenes, are illuminated by diffuse skylight whereas sh...
Doctor of Philosophy and was awarded by Brunel University LondonInthisthesiswefocusontheimpactofillu...
Abstract—In this paper, we introduce a method for recovering an illumination distribution of a scene...
The object of this work has been the improvement of the existing knowledge of the spectral distribut...
The light field The spectral power distribution of the light emitted by the Sun is almost constant. ...
The illumination in natural environments varies through the day. Stable inferences about surface col...
The paper proposes a technique for estimation outdoor illumination conditions in terms of sun and sk...
International audienceThe article for the specific region segmentation is discussed here. This paper...
The human visual system is adept at detecting and encoding statistical regularities in its spatio-te...
AbstractNatural scenes often contain variations in local luminance as a result of cast shadows and i...
Illumination tends to vary in natural visual scenes, incorporating well-lit areas and darker regions...
Introduction One goal of scene understanding is to find the shape and color of surfaces in a scene ...
The evaluation of both visual and nonvisual effects from the spectral power distribution (SPD) of ou...
A theoretical and experimental investigation of the causes of the reduction of the contrast in the s...