Samenvatting
The perceptual image quality of natural scenes as afunction of the physical system parameter gamma has a definite optimum. This optimum is subject-independent and greater than 1, but was found to vary from one scene to another.
If gamma is varied, brightness contrast is the most obviously changing perceptual attribute. Subjects appear to be able to make consistent, global judgements of bright
ness contrast in natural scenes, despite the fact that local brightness contrast may vary considerably. If scaled
perceptual quality is plotted against scaled (perceived)
brightness contrast, all curves coincide, suggesting that
under the given conditions brightness contrast is the
dominant psychological dimension of the perceptual
image quality. Taking into account the grey-level distribution of the scene in combination with the luminancereproduction
function of the imaging chain, an effective
gamma value can be defined. If scaled perceptual quality
and global brightness contrast are plotted against this effective gamma, the differences between scenes disappear,
although there are clear differences in the relative sizes of
the light and dark parts of the various test scenes. An
analysis by scaling global brightness of gaussian blobs of
randomly distributed sizes, modulation depths and polari
ties, shows that skewness of this distribution does indeed
have only a weak effect over a considerable range. The data
suggest that the ratio ofmaximum and minimum luminance
determines global brightness contrast for complex scenes
under these conditions.
Originele taal-2 | Engels |
---|---|
Titel | Recent progress in color science |
Redacteuren | R. Eschbach, K. Braun |
Plaats van productie | Springfield |
Uitgeverij | IS&T |
Pagina's | 233-240 |
ISBN van geprinte versie | 0-89208-202-X |
Status | Gepubliceerd - 1997 |