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If I have two colors defined by their RGB values, can I average the Red, Green and Blue values and then combine to define a third color that looks like a visual average of the two?

ie NewColor = (R1+R2)/2,(G1+G2)/2,(B1+B2)/2

EDIT1: Thanks for all the responses. For my current needs, I am only dealing with color pairs that are shades of the same color so I think that averaging them will work. However, I will try converting to Lab Space to make sure that assumption is true and the technique will be useful in the future.

EDIT2: Here are my results FWIW. Color1 and Color2 are my two colors and the two middle columns are the results of averaging in Lab space and averaging RGB respectively. In this case there is not a lot of difference between the two color and so the differences in the output from the averaging techniques is subtle.

visual comparison of color averaging techniques

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Nice question. I wondered about that myself too, sometimes. – tehvan Mar 16 '09 at 6:40
up vote 18 down vote accepted

Take a look at the answers to this question.

Basically, you want to convert the colors into something called Lab space, and find their average in that space.

Lab space is a way of representing colours where points that are close to each other are those that look similar to each other to humans.

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Interesting. Until now I have been using simply HSL, but Lab looks worth investigating. – MattJ Mar 16 '09 at 8:56
Could I use this Lab Space to represent a linear value range to encode values to colours over the full colour range and not only as shades of grey, or different brightness.… – Horst Walter Aug 24 '11 at 22:04

Averaging in HSL color space might produce better results.

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I think he means Lightness, Saturation, Hue. I believe it's the same thing as HSV / HSL - try those in wikipedia. – Blorgbeard Mar 16 '09 at 7:12
added wikipedia link – mmcdole Mar 16 '09 at 7:13
oops, sorry :) never could get it right – eugensk00 Mar 16 '09 at 7:13

Several answers suggest converting to Lab color space - which is probably a good approach for more complex color manipulation.

But if you simply need a quick way to take the average of two colors, this can be done in the RGB space. You just have to mind a caveat: You must square the RGB values before averaging them, and then take the root of the result. (If you simply take the average, the result will tend to be too dark.)

Like this:

NewColor = sqrt((R1^2+R2^2)/2),sqrt((G1^2+G2^2)/2),sqrt((B1^2+B2^2)/2)

Here's a great vid which explains why this method is efficient:

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Aha, an answer that recognizes the logarithmic space that images use in the image world! For weighted mixes (i.e. 75% colour A, and 25% colour B), use NewColor = sqrt(R1^2*w + R2^2*[1 - w]), sqrt(G1^2*w + G2^2*[1 - w]), sqrt(B1^2*w + B2^2*[1 - w]) where w is a weight from 0 to 1. – Dan W Feb 15 at 8:09
This is the answer most people coming to this question via Google are actually looking for. – gd1 Apr 11 at 22:27

I don't know whether taking a simple average of the components is the "best" from a perceptual point of view (that sounds like a question for a psychologist), but here are a couple of examples using simple component averaging.

alt text

The red-mustard-green one is ugly but the interpolation seems reasonable enough.

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I know a picture is worth a thousand words, but sometimes you can use some words, too – 1800 INFORMATION Mar 16 '09 at 7:14

Yes. You can average two colors together like that. It's the approach used by OpenGL to blend colors together (e.g., in creating mip maps for rendering distant objects, or rendering a 50% transparent texture). It is fast, simple, and "good enough" for many situations. It isn't completely realistic, however, and probably wouldn't be used on photograph-quality images.

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Viewing environment and properties of the display have a huge impact on color perception, so I concur that simple averaging is good enough for most situations. – TrayMan Mar 16 '09 at 8:12

There's actually a much simpler way.

  • Scale the image down to 1px by 1px.

    Color of the 1px is the average color of whatever you scaled

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This is a weird answer in that it is basically terrible (computationally extremely inefficient, and doesn't answer the question on a fundamental level) but it's really practical. This totally works in certain circumstances. – Newb Dec 16 '14 at 22:19

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