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I'm trying to generate RGB colors with the same perceived brightness.

The function R*0.2126+ G*0.7152+ B*0.0722 is said to calculate the perceived brightness (or equivalent grayscale color) for a given an RGB color.

Assuming we use the interval [0,1] for all RGB values, we can calculate the following:

  • yellow = RGB(1,1,0) => brightness=0.9278
  • blue = RGB(0,0,1) => brightness=0.0722

So, in order to make the yellow tone just as dim as the blue one i can simply perform this simple calculation on yellow for each of the RGB components:

  • dim_yellow = yellow * 0.0722 / 0.9278

However, when doing the opposite thing, thus "scaling" up the blue color to the same perceived brightness as the original yellow, the B component obviously exceeds 1, which cannot be displayed on a computer screen.

I guess the missing brightness from the excess B component could be "redistributed" to the R and G components, faking a brighter blue color. So what is the best general method to calculate those final RGB values?

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I recommend you to use HSV color model instead of RGB since you can easily achive what you want only modifying Value(Brightness) component. The wiki page also contains how to convert RGB to HSV and back

EDIT: Try to use CIELAB color space since it approximate human's vision

  • I know about HSL and HSV, but they don't do what you suggest. A blue hue with full saturation and value will still appear to be "darker" or "more dim" then a yellow hue with full saturation and value. So your answer does not solve my problem – Askaga Feb 11 '17 at 16:07
  • Have you tried nonlinear spaces like CIELAB? – Dmitry Lachinov Feb 11 '17 at 16:11

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