#mathart

5000th toot! #introduction time. I'm originally from London, UK, now based in Alt Empordà. I make #CreativeCoding #MathArt. I use Linux since 2004 or so, currently happy with Debian though I need to find something else to keep my remaining 32bit hardware up to date #permacomputing. Most of my code is published under #copyleft licenses. I started making music on classic #Amiga, using #OctaMED SoundStudio until 2003. Then I used #PureData until 2011, but mousing patch cables was increasingly not fun so I wrote pdlua to embed Lua in Pd and later fixed some things to let libpd be compiled with emscripten to run in web browsers. In 2012 I started #LiveCoding music in the #C programming language, which I still do. Always interested in #fractals, I wrote some libraries to support my investigation of the #MandelbrotSet. I took over maintenance of Kalle's Fraktaler 2, but eventually I was fed up with its code and wrote Fraktaler-3 from scratch, to support deep zooming into hybrid escape time fractals. A companion program Zoomasm is for video output. I have a lot of projects, most sleeping until I feel inspired to work on them some more. Currently working on Mandeltron, a thing that combines live-coding with the Mandelbrot set. More on my website, including blog going back to 2005: https://mathr.co.uk

Twelve years. I started this project twelve years ago, and today I hold the result in my hand. It’s a book that combines bead weaving with math called, “Beading with Algorithms: Cellular Automata in Peyote Stitch.” With help from mathematician and artist Roger Antonsen, graphic designer Zelda Lin, a handful of talented proof readers, and the good people from World Scientific Publishing Company, my dream of combining my loves of math, art, and teaching into a book is finally a reality. This book is the first of its kind, a recipe book of algorithms that can be used and combined to generate colorful patterns in peyote stitch beadwork in any size and shape you desire. These algorithms could also be applied to other pixelated art forms like tile laying, embroidery, crochet, and quilts. We included projects like bracelets, pill pouches, pendants, beaded beads, and key chains. We also included a bunch of different grids that you can photocopy and color with markers. Of course I’m biased, but I think it’s a really beautiful book. We included multiple colorful images on almost every page, 172 pages in all. It was a huge layout challenge, but Zelda nailed it. My original goal was to write 128 pages on how to use algorithms to make beaded jewelry, but the more we explored the space, the more we found. Not just millions of algorithms, the space of possibilities is infinite. So of course, we couldn’t include them all. But we used math and Roger’s custom software that he wrote for this project to help us find dozens of the easiest algorithms and more than a hundred more in increasing levels of complexity. We included all of our favorites. 1/2 #MathArt #beading #Genuary #math #beadweaving