# How much worse is sRGB than L*a*b* when computing the eucleidan distance between colors?

L*a*b* is the best way of doing it, but converting to it is complicated, and I'm lazy. How much accuracy am I giving up by operating on sRGB directly?

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CIE LAB is a color space which tries to mimic the human visual perception which is nonlinear.And therefore CIE LAB is perceptually uniform.

On the other hand, sRGB is not perceptually uniform. [Thanks Martin Källman for pointing out the wrong part of the answer]

For example, in sRGB color space, if you compute the euclidean distance between two green colors and do the same euclidean distance between blue colors, you will see you come to violet!! But, if you do that in Lab color space, the same euclidean distance over the whole color space will approximate be the same since LAB is perceptually uniform color space adapted to human visual perception.

In summary, if computing euclidean distance between colors is an issue, its worth to do it in CIE LAB instead of sRGB color space.

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This is plain wrong - sRGB is non-linear colour space. What you rather mean to say is that the CIELab colour space is more perceptually uniform than sRGB – Martin Källman Aug 1 '13 at 13:10
Also, picking two sets of two arbitrary colors with an equal Euclidean distance in CIELab does not necessarily translate to the colour differences being perceptually equivalent. This is partially addressed by CIEDE2000, but even this is flawed, especially >5 units – Martin Källman Aug 1 '13 at 17:00

It depends of what this distance will be used for. For some applications it is enough to use sRGB, in others even the implementation of some more perceptually accurate space then Lab will be necessary.

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@AnsisMalins He wrote "more perceptually accurate", not "more accurate". No need to name them; just have a look at the shape of the MacAdam ellipses in Lab space (these ones for instance). If Lab was perceptually accurate, they would be circles, not ellipses. If you really want names, look at CIEDE2000 which attempts to fix the non perceptually uniform Euclidian distance in Lab. A better colour space could then be built over the local derivative of CIEDE2000 along L*, a* and b*. – sam hocevar Jan 4 '13 at 18:28

Telling you they are different or that LAB is setup to be more uniform with regard to human eyes doesn't answer the question. Yeah, LAB is more accurate. How much more accurate?

This is Euclidean distance from an orange.

This is LAB Delta E from the same color.

Each diagram is read left to right, top to bottom. With a subset of all RGB colors.

LAB Delta E, isn't that great. You'd really want Delta E, 2000 if you want the best results. If you want a pretty good trade off between good and fast & easy. Redmean is actually pretty good for a colordistance formula.

You'll find the quick snippet here. http://www.compuphase.com/cmetric.htm

He's also right about Euclidean weighting. The RGB weighting (if you wanted to do that should be 22,43,35 (I averaged all colors over the entire RGB distances possible for Delta E2000 for those numbers)).

I've done a lot of work with color distance and wrote a pretty good visual comparison of the various different formula.

http://godsnotwheregodsnot.blogspot.com/2012/09/color-space-comparisons.html

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