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When converting from RGB to grayscale, it is said that specific weights to channels R, G, and B ought to be applied. These weights are: 0.2989, 0.5870, 0.1140.

It is said that the reason for this is different human perception/sensibility towards these three colors. Sometimes it is also said these are the values used to compute NTSC signal.

However, I didn't find a good reference for this on the web. What is the source of these values?

See also these previous questions: here and here.

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Yes it does. I do programming on RGB values all the time. Applying "real world" values to these calculations is very important if you want your app to be worth its salt. – Neil N Mar 26 '09 at 19:44
Many programmers may not care and compute "wrong" grayscale pictures, but I do. – ypnos Mar 26 '09 at 19:46
I'd agree it is coding related - defiantly an interesting and relevant problem if you're coding graphics. +1 as I'd like to know the answer myself – Cruachan Mar 26 '09 at 19:47
RGB is programming related. It's as programming related as parsing date strings. As converting the text "true" to a boolean value. – Neil N Mar 26 '09 at 22:00

5 Answers 5

up vote 35 down vote accepted

The specific numbers in the question are from CCIR 601 (see the Wikipedia link below).

If you convert RGB -> grayscale with slightly different numbers / different methods, you won't see much difference at all on a normal computer screen under normal lighting conditions -- try it.

Here are some more links on color in general:

Wikipedia Luma

Bruce Lindbloom 's outstanding web site

chapter 4 on Color in the book by Colin Ware, "Information Visualization", isbn 1-55860-819-2; this long link to Ware in may or may not work

cambridgeincolor : excellent, well-written "tutorials on how to acquire, interpret and process digital photographs using a visually-oriented approach that emphasizes concept over procedure"

Should you run into "linear" vs "nonlinear" RGB, here's part of an old note to myself on this. Repeat, in practice you won't see much difference.

RGB -> ^gamma -> Y -> L*

In color science, the common RGB values, as in html rgb( 10%, 20%, 30% ), are called "nonlinear" or Gamma corrected. "Linear" values are defined as

Rlin = R^gamma,  Glin = G^gamma,  Blin = B^gamma

where gamma is 2.2 for many PCs. The usual R G B are sometimes written as R' G' B' (R' = Rlin ^ (1/gamma)) (purists tongue-click) but here I'll drop the '.

Brightness on a CRT display is proportional to RGBlin = RGB ^ gamma, so 50% gray on a CRT is quite dark: .5 ^ 2.2 = 22% of maximum brightness. (LCD displays are more complex; furthermore, some graphics cards compensate for gamma.)

To get the measure of lightness called L* from RGB, first divide R G B by 255, and compute

Y = .2126 * R^gamma + .7152 * G^gamma + .0722 * B^gamma

This is Y in XYZ color space; it is a measure of color "luminance". (The real formulas are not exactly x^gamma, but close; stick with x^gamma for a first pass.)

Finally, L* = 116 * Y ^ 1/3 - 16 "... aspires to perceptual uniformity ... closely matches human perception of lightness." -- Wikipedia Lab color space

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I'd disagree that you won't see much difference, see for examples. – etarion Dec 14 '10 at 13:24
Y = 0.2126 * R + 0.7152 * G + 0.0722 * B - Wikipedia ( – iamantony Feb 3 '13 at 8:04

I found that this publication referenced in an answer to a previous similiar question. It is very helpful:

It shows 'tons' of different methods to generate grayscale images with different outcomes!

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Check out the Color FAQ for information on this. These values come from the standardization of RGB values that we use in our displays. Actually, according to the Color FAQ, the values you are using are outdated, as they are the values used for the original NTSC standard and not modern monitors.

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Heres some code in c to convert rgb to grayscale. The real weighting used for rgb to grayscale conversion is 0.3R+0.6G+0.11B. these weights arent absolutely critical so you can play with them. I have made them 0.25R+ 0.5G+0.25B. It produces a slightly darker image.

NOTE: The following code assumes xRGB 32bit pixel format

unsigned int *pntrBWImage=(unsigned int*) pointer..;  //assumes 4*width*height bytes with 32 bits i.e. 4 bytes per pixel
unsigned int fourBytes;
        unsigned char r,g,b;
        for (int index=0;index<width*height;index++)
            fourBytes=pntrBWImage[index];//caches 4 bytes at a time

            I_Out[index] = (r >>2)+ (g>>1) + (b>>2); //This runs in 0.00065s on my pc and produces slightly darker results
            //I_Out[index]=((unsigned int)(r+g+b))/3;     //This runs in 0.0011s on my pc and produces a pure average
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0.3 0.6 0.11 don't add to 1. Wikipedia seems to suggest 0.30 0.59 0.11. – damix911 Jan 13 '13 at 7:30

Here's a paper on how these numbers (or similar ones) were derived:

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