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Does exist a Cellular Automata Rule that is RANDOM (like the rule 30) and has 3 colors?

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Your previous question confused me, but this one I understand, and I think it's a good one. It's probably off-topic for this site however, and would be better asked on math.stackexchange.com –  Mr.Wizard Aug 4 '12 at 21:09
    
rule 30 is by no means random –  Sonia Aug 5 '12 at 4:44
    
Rule 30 seems to have locally a random behavior –  Daniele Ricci Aug 5 '12 at 10:13
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1 Answer

This is rather a research problem - you have to run statistical tests on the Cellular Automata (CA) Rule you find to show that it is random. If you would like to do a research projects like this check out The Wolfram Science Summer School.

For now let see what information and tools can get you started.

First of all I would read Chapter 6: Starting from Randomness - Section 5: Randomness in Class 3 Systems in the "New Kind of Science" (NKS) book and surounding chapters for better understanding of the subject.

I would also look at many free apps exploring 3-color rules at The Wolfram Demonstrations Project.

Next you can start from good candidates found on page 64. Follow that link and read the image captions about 3-color CAs with seamingly random behavior. The online book is free (you may need to register once). I would recommend also reading pages 62 - 70 exaplaining those images.

Also take a look at "Random Sequence Generation by Cellular Automata" by Stephen Wolfram.

If you do no thave Mathematica, then Wolfram|Alpha can provide tons of valuable information. Here are the queries for the CAs from NKS book: rule 177, rule 912, and rule 2040. Not how Wolfram|Alpha gives you, for example, difference pattern images - higly divergent (spread fast) means chaos and randomness:

enter image description here

If you have Mathematica - it is easy to evolve CAs (and further test their random properties say with Chi-squared test). This is how you set up a 3 color range 1 totalistic CAs from pictures in NKS book (you can dig further with Hypothesis Testing):

ArrayPlot[CellularAutomaton[{#, {3, 1}}, {{1}, 0}, 50], Mesh -> True, 
    PixelConstrained -> 7, ColorRules -> {0 -> White, 1 -> Red}, 
    Epilog -> Text[Style["Rule " <> ToString@#, Red, Bold, 25], {50, 340}]] & /@ 
{177, 912, 2040} // Column

enter image description here

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