Domain Coloring

KathyR

posted Jan 13 '23 at 2:33 am

I found an interesting and visually pleasing phenomenon called Domain Coloring. Based on mathematical formulas, I don't know how closely it relates to fractals. I'm a big fan of rainbow coloring and when I stumbled upon these images I was mesmerized. Is there any way to make something like this in UF?
Here's a link: https://www.dynamicmath.xyz/domain-coloring/dcgallery.html

I found an interesting and visually pleasing phenomenon called Domain Coloring. Based on mathematical formulas, I don't know how closely it relates to fractals. I'm a big fan of rainbow coloring and when I stumbled upon these images I was mesmerized. Is there any way to make something like this in UF? Here's a link: https://www.dynamicmath.xyz/domain-coloring/dcgallery.html ![63c0c12a46e14.jpg](serve/attachment&path=63c0c12a46e14.jpg) ![63c0c13d4f35d.jpg](serve/attachment&path=63c0c13d4f35d.jpg) ![63c0c13d4fc23.jpg](serve/attachment&path=63c0c13d4fc23.jpg) ![63c0c13d51b92.jpg](serve/attachment&path=63c0c13d51b92.jpg)

reply

Phillip

posted Jan 13 '23 at 9:16 am

Yes, UF can absolutely do this, and I wouldn't be surprised if it's already implemented somewhere in the jungle of public coloring algorithms. If not, it should be relatively easy (compared to what other CAs do) to implement this.

The simplest way would be to:

use a fractal formula that does nothing (just bails out after 0 iterations)
use a coloring algorithm that assigns color based on real and imaginary value (direct coloring algorithm)
use whichever function you'd like to examine as a mapping

Yes, UF can absolutely do this, and I wouldn't be surprised if it's already implemented somewhere in the jungle of public coloring algorithms. If not, it should be relatively easy (compared to what other CAs do) to implement this. The simplest way would be to: 1. use a fractal formula that does nothing (just bails out after 0 iterations) 2. use a coloring algorithm that assigns color based on real and imaginary value (direct coloring algorithm) 3. use whichever function you'd like to examine as a mapping

edited Jan 13 '23 at 9:17 am

reply

KathyR

posted Jan 14 '23 at 2:03 am

Thank you very much for your response Phillip, appreciate the feedback. I'm vague on Direct Coloring formulas...is this the same as Direct Orbit Traps? Every time I try to use it the colors seem so dull. What are some examples of Direct Coloring formulas?

reply

Phillip

posted Jan 14 '23 at 7:33 am

Direct Orbit Traps is a direct coloring algorithm, the difference is merely that a coloring algorithm returns an index for a color in the selected gradient whereas a direct coloring algorithm returns an RGB triplet. To achieve the nice coloring shown in your example you will probably need to work in HSV (hue, saturation, value) space, there are conversion formulas to be found online between the two color spaces.

reply

Frederik Slijkerman

posted Jan 14 '23 at 1:36 pm

It reminds me of Carlson Orbit Traps:

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Ultra Fractal author

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KathyR

posted Jan 14 '23 at 2:19 pm

Here's another link in support of the Domain Coloring idea with an interesting collection of pics, my favorite one is the first. The white lines are cool. And down the page look to be some Ducky fractals, go figure! http://blog.hvidtfeldts.net/index.php/2012/03/lifted-domain-coloring/

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KathyR

posted Jan 14 '23 at 2:32 pm

Very nice Frederik, thank you! I love Carlson orbit traps, kcc coloring. It is one of my favorites for sure with the beautiful bright colors. One thing I didn't realize is that it actually says Direct Coloring underneath:

Looks like Paul Carlson also did a study on Newton M-set fractals found here:
https://www.semanticscholar.org/paper/Two-artistic-orbit-trap-rendering-methods-for-M-set-Carlson/0341ad367379fba0700bbd2fde485fa4689c8d40

Very neat pics! You can do a lot with the Newton formula with so many variations. I just don't know how he captured the Mandelbrot set in the middle of these.

Very nice Frederik, thank you! I love Carlson orbit traps, kcc coloring. It is one of my favorites for sure with the beautiful bright colors. One thing I didn't realize is that it actually says Direct Coloring underneath: ![63c2ba731d1e2.jpg](serve/attachment&path=63c2ba731d1e2.jpg) Looks like Paul Carlson also did a study on Newton M-set fractals found here: https://www.semanticscholar.org/paper/Two-artistic-orbit-trap-rendering-methods-for-M-set-Carlson/0341ad367379fba0700bbd2fde485fa4689c8d40 Very neat pics! You can do a lot with the Newton formula with so many variations. I just don't know how he captured the Mandelbrot set in the middle of these.

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Domain Coloring

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