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tatasz β€” Reaction - Diffusion Take 2

#abstract #animated #animation #diffusion #gif #growth #processing #reaction
Published: 2016-08-17 10:35:01 +0000 UTC; Views: 3230; Favourites: 140; Downloads: 43
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Description Second reaction-diffusion gif. More coming ^^.
Made in processing.
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Comments: 36

ptrgags [2018-03-17 00:59:02 +0000 UTC]

Woah this is so cool! It reminds me of my sulci pattern:


It's cool to see what others are making with Processing. It's such a cool programming environment for when you want to draw something with code but you don't want to waste time setting up a graphics canvas.

Here's one thing I've made with Processing in the past:Β ptrgags.github.io/projects/phy… -- I made some physics simulations after learning about Lagrangian dynamics.

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tatasz In reply to ptrgags [2018-03-22 12:36:29 +0000 UTC]

ohh nice

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Schmiegel [2017-03-30 10:01:52 +0000 UTC]

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notchia [2016-11-20 03:30:01 +0000 UTC]

This is super cool! Reminds me of some work done by the Mediated Matter group at the MIT Media Lab, where they developed a beautiful computational approach to emulating biological growth (link to "Grown Structures" animations they produced: vimeo.com/170828532 )...

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UniversalKinase [2016-09-12 18:43:48 +0000 UTC]

I downloaded the software, am going through tutorials, but am still trying to figure out how you accomplished this.
Seriously though, this is awesome enough (from even a purely mathematical perspective) that I'm not going to give up.
The math that you demonstrate here seems like it's relevant to natural processes, even more relevant than fractals, and I want to play around with the formula that describe such interesting patterns.
The way everything reacts to its surroundings... it's a dynamic optimization problem, and it's beautiful.

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tatasz In reply to UniversalKinase [2016-09-12 19:13:46 +0000 UTC]

Feel free to peek at my code:

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UniversalKinase In reply to tatasz [2016-09-13 04:46:36 +0000 UTC]

After playing around with the 3x3 matrix, and a few other variables I got a perpetually rippling field of really tight lines. It's like a double slit diffraction output, and it's one of the trippiest things I've seen this year.
Thanks. I think I'm going to play around with the colors and see what else I can do.
Thanks again for your help, and I hope you have a great day.

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UniversalKinase In reply to tatasz [2016-09-13 04:12:32 +0000 UTC]

Thanks, I'm still dissecting it. I've managed to change some parameters, and get some slightly different results.
I'm still working on getting the motion and growth that you display in this animated piece. Β I'll get there though, it's a fun puzzle.
You always do such amazing stuff, and it's inspiring.

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Mathness [2016-08-23 15:18:38 +0000 UTC]

Organic growth ftw.

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DnKrow7 [2016-08-22 07:21:21 +0000 UTC]

A cerebral labyrinth

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faryba [2016-08-18 12:15:36 +0000 UTC]

Β  Β  Β 

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Individumm [2016-08-18 03:38:08 +0000 UTC]

Looks a bit like the Β Weiss domains.^^

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Michawolf13 [2016-08-17 19:48:30 +0000 UTC]

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BlueW [2016-08-17 19:20:34 +0000 UTC]

Neat!

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Karinica [2016-08-17 17:40:00 +0000 UTC]

That is so cool!

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Xerovore [2016-08-17 16:43:36 +0000 UTC]

It feels so organic, lovely work!

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Lucain24 [2016-08-17 13:23:21 +0000 UTC]

CRAWLING IN MY SKIN!! THESE WOUNDS, THEY WILL NOT HEAL!!!
-Linkin Park "Crawling"

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hayanoiro [2016-08-17 12:51:27 +0000 UTC]

wow cool!

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bugrogers [2016-08-17 12:38:09 +0000 UTC]

Excelente!!!!

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tatasz In reply to bugrogers [2016-08-17 14:36:07 +0000 UTC]

obrigada

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Mayya-b [2016-08-17 12:28:14 +0000 UTC]

So smoothΒ 

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flanderslol [2016-08-17 12:19:19 +0000 UTC]

but,but,how????
Great job btw

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tatasz In reply to flanderslol [2016-08-17 14:36:01 +0000 UTC]

Processing... The params in the comments of the deviation below pretty much give most of it out

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ishee [2016-08-17 12:19:13 +0000 UTC]

any way we can get a peek at the code for this ?

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tatasz In reply to ishee [2016-08-17 14:35:32 +0000 UTC]

I have the code in the comments of the deviation below. Its pretty similar, just slightely different parameters.

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ishee In reply to tatasz [2016-08-18 04:54:44 +0000 UTC]

Thanks !

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squirrelyjoel [2016-08-17 12:14:35 +0000 UTC]

Is this the cancer?

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botsu1x [2016-08-17 12:12:00 +0000 UTC]

This is amzing, great job! What did you use to make it?

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tatasz In reply to botsu1x [2016-08-17 14:35:00 +0000 UTC]

Thank you... I used processing, and you can download my code here: (check artists comments)

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ReclusiveChicken [2016-08-17 11:00:31 +0000 UTC]

turing pattern?

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squirrelyjoel In reply to ReclusiveChicken [2016-08-17 12:14:20 +0000 UTC]

Hi daddy

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ReclusiveChicken In reply to squirrelyjoel [2016-08-17 12:20:54 +0000 UTC]

mother

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squirrelyjoel In reply to ReclusiveChicken [2016-08-17 12:23:37 +0000 UTC]

2

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tatasz In reply to ReclusiveChicken [2016-08-17 11:12:20 +0000 UTC]

reaction-diffusion

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ReclusiveChicken In reply to tatasz [2016-08-17 11:13:21 +0000 UTC]

precisely it.

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bib993 [2016-08-17 10:37:13 +0000 UTC]

Brain noodles

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