# Best algorithm for matching colours.

I have an array of around 200 colours in RGB format. I want to write a program that takes any RGB colour and tries to match a colour from the array that is most "similar".

I need a good definition for "similar", which is as close as possible to human perception.

I also want to show some information about matching accuracy. For example black-white: 100% and for a similar colour with a slightly different hue: -4%.

Do I need to use neural networks? Is there an easier alternative?

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Is the question about a suggestion as to what may be a good similarity function, or is it about an algorithm to quickly find the most similar color(s) in the the array, relative to a give color ? –  mjv Nov 5 '09 at 5:15
Both. If first I need some definition of similarity before I can try crating algorithm. I think "perceptually similar" is what I was looking for. –  Maciek Sawicki Nov 5 '09 at 5:22

Convert all of the colors to the CIE Lab color space and compute the distance in that space

``````deltaE = sqrt(deltaL^2 + deltaA^2 + deltaB^2)
``````

Colors with the lowest deltaE are the most perceptually similar to each other.

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Thank You, that is exactly what I need. –  Maciek Sawicki Nov 5 '09 at 5:16
Keep in mind you don't need to do the sqrt - sqrt is an increasing function, therefore this step is superfluous. –  Rooke Nov 5 '09 at 5:18
You're right, if you're doing nothing more than sorting, the square of the distance is as good as the distance itself. If you want to compare "how different', then leave it in. –  hobbs Nov 5 '09 at 5:22
CIE Lab is used in exactly this manner to do nearest-color calculations in all the major color management systems, such as the ones from Apple, Microsoft, and Adobe. It's a very interesting topic. –  Bob Murphy Nov 6 '09 at 5:41
What's a good low value for deltaE from your experience? i.e. when deltaE < 14, colors are perceptually similar. –  Marius Andreiana Jul 21 '14 at 21:34

No, you do not need neural networks here! Simply consider an HSL color value a vector and define a weighted modulus function for the vector like this:

``````modulus = sqrt(a*H1*H1 + b*S1*S1 + c*L1*L1);

where a,b,c are weights you should decide based on your visual definition of what
creates a bigger difference in perceived color - a 1% change in Hue or a 1%
change in Saturation
``````

I would suggest you use a = b = 0.5 and c = 1

Finally, find out the range your modulus would take and define similar colors to be those which have their moduli very close to each other (say 5%)

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That's a good simple alternative. The conversion from RGB to HSL is a lot simpler than the conversion from RGB to Lab. :) –  hobbs Nov 5 '09 at 5:30
Ok, so I will try it first. –  Maciek Sawicki Nov 5 '09 at 5:36
Crimson, can you check the math on your modulus there? I don't think it's right. You want something more like `a * (H1 - H2)**2 + `..., yeah? –  hobbs Nov 5 '09 at 6:21
@hobbs - it would be better to calculate both moduli and then compare them rather than just compute the modulus of the difference vector –  Kshitij Saxena -KJ- Nov 5 '09 at 6:38
But you don't want to multiply the hues, etc. of the two different colors, do you? –  hobbs Nov 5 '09 at 7:55

I'd also point out the least squares method, just as something slightly simpler. That is, you take the difference of a number, square it, then sum all these squared differences.

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I was looking for the thing but having not found a lot answers around I decided to create this little library.

https://github.com/sebastienjouhans/c-sharp-colour-utilities

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Please be very careful when posting answers that promote your own work. Make sure that you actually answer the question here and only use your blog/source as backup and reference. At the moment this is likely to be flagged as spam. –  ChrisF Apr 8 '13 at 22:10