Glossary:Chrominance: Difference between revisions
(Created page with "Chrominance is the hue of a colour. This can be used together with the luminance (the brightness) and the saturation (the purity of the colour) as an alternative to specifying the red, green and blue (RGB) components. This is useful because the eye perceives variations of chrominance and saturation across an image much less sharply than variations of luminance. Hence these latter can be presented at lower definition with no visible degradation in the ima...") Â |
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Chrominance is the hue of a colour. This can be used together with the luminance (the brightness) and the saturation (the purity of the colour) as an alternative to specifying the red, green and blue ([[Glossary:RGB|RGB]]) components. This is useful because the eye perceives variations of chrominance and saturation across an image much less sharply than variations of luminance. Hence these latter can be presented at lower definition with no visible degradation in the image, so saving storeage or transmission bandwidth. | Chrominance is the hue of a colour. This can be used together with the [[Glossary:Luminance|luminance]] (the brightness) and the [[Glossary:Saturation (colour)|saturation]] (the purity of the colour) as an alternative to specifying the red, green and blue ([[Glossary:RGB|RGB]]) components. This is useful because the eye perceives variations of chrominance and saturation across an image much less sharply than variations of luminance. Hence these latter can be presented at lower definition with no visible degradation in the image, so saving storeage or transmission bandwidth. |
Revision as of 21:37, 14 September 2022
Chrominance is the hue of a colour. This can be used together with the luminance (the brightness) and the saturation (the purity of the colour) as an alternative to specifying the red, green and blue (RGB) components. This is useful because the eye perceives variations of chrominance and saturation across an image much less sharply than variations of luminance. Hence these latter can be presented at lower definition with no visible degradation in the image, so saving storeage or transmission bandwidth.