GMU:Algorithmic Art: Difference between revisions

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==Introductory Algorithm==
==Introductory Algorithm==
[[File:intro_algorithm_600x600.gif|Introductory Algorithm]]
[[File:intro_algorithm_600x600.gif|Introductory Algorithm]]




----
----


==Working with the Plotter==
* [[/HP 7475A/]]
----
==Student Works ==
==Student Works ==
* [[/Tobias Zimmer/]]
* [[/Tobias Zimmer/]]
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* [[/Joel Schäfer/]]
* [[/Joel Schäfer/]]
* [[/Lorenz Gunreben/]]
* [[/Lorenz Gunreben/]]
* [[/Lucia Schmidt/]]
* [[/Michael Wilde/]]
* [[/Fabian/]]
* [[/Jonas Obertüfer/]]
* [[/Constantin Noack/]]
* [[/Ahmad Hafez/]]
* [[/Felix Seiboth/]]
----
==Consultations in M7 Room 204==
'''Thursday 31.01.19'''
13:00 - 13:30 (put your name here)
13:30 - 14:00 Lucia
14:00 - 14:30 (put your name here)
14:30 - 15:00 Ahmad
15:00 - 15:30 (put your name here)
15:30 - 16:00 (put your name here)
16:00 - 16:30 Felix
'''Friday 01.02.19'''
13:00 - 13:30        ozan
13:30 - 14:00        hilde
14:00 - 14:30        Constantin
14:30 - 15:00        Joel
15:00 - 15:30        Christopher
15:30 - 16:00        Jonas
16:00 - 16:30        fabian
==Resources==
'''Processing'''
*[https://processing.org/reference/ Processing Reference]
*[https://processing.org/examples/ Processing Examples] you can also conveniently find these in the Processing IDE)
*Processing Cheatsheet [https://cdn.sparkfun.com/assets/6/3/f/e/3/Processing_Cheatsheet_Update.pdf] [https://www.cs.bham.ac.uk/~cxp291/ri/processing_cheat_sheet_english.pdf]
* 25 Life Saving Tips for Processing [https://amnonp5.wordpress.com/2012/01/28/25-life-saving-tips-for-processing/] [https://forum.processing.org/one/topic/25-life-saving-tips-for-processing-blogpost.html]
<br>
'''Relevant Texts'''
*[http://www.verostko.com/algorist.html The Algorists, ''Roman Versotko'']
*Ten theses about software art, ''Florian Cramer'' [http://cramer.pleintekst.nl/essays/10_thesen_zur_softwarekunst/10_theses_about_software_art.html english], [https://www.netzliteratur.net/cramer/thesen_softwarekunst.html german]
*Do it, ''Hans Ulrich Obrist'' (you can find the book in the library)
*[http://www.charlesgmiller.com/teaching/177/DOIT.pdf Art by instruction and the pre-history of  do it, ''Bruce Altshuler'']
<br>
'''Early Computer Artists'''
*[http://dam.org/artists/phase-one Digital Art Museum]
*[http://dada.compart-bremen.de/ Compart Bremen]
<br>
'''Other artists working with code'''
*[http://reas.com/ Casey Reas]
*[https://img.inconvergent.net/plot/ Anders Hoff]
*tbc...
<br>
'''Inspirations'''
*[https://www.openprocessing.org/ Open Processing]
*[https://processing.org/exhibition/ Processing Exhibition]
*[https://www.creativeapplications.net/ Creative Applications]
*[http://prostheticknowledge.tumblr.com/ Prosthetic Knowledge]




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==Treated Topics==
==Treated Topics==


==12.10.18==
'''12.10.18'''
Intro
* Sol LeWitt | [https://massmoca.org/sol-lewitt/ Wall Drawings]
 
* Casey Reas | [http://reas.com/notation/ Notation]
==19.10.18==
2D Geometry


==26.10.18==
<br>'''19.10.18'''
[https://en.wikipedia.org/wiki/Concrete_art Concrete Art Manifesto]
*[https://en.wikipedia.org/wiki/Concrete_art Concrete Art Manifesto]
*''2D Geometry''


variables
<br>'''26.10.18'''
iteration
*''Variables''
for loops
*''Iteration / Animation''
*''For Loops''
*''Nested For Loops''


==02.11.18==
<br>'''02.11.18'''<br>
===Art without author!? / Artists working with randomness===
'''Art without author!? / Artists working with randomness'''
*Jackson Pollock
*Jackson Pollock
*Gerhard Richter | [https://www.gerhard-richter.com/de/art/paintings/abstracts/colour-charts-12 Colour Charts] | [https://www.gerhard-richter.com/en/art/paintings/abstracts/colour-charts-12/4096-colours-6089/?&referer=search&title=4096&keyword=4096 4096 Colors]
*Gerhard Richter | [https://www.gerhard-richter.com/de/art/paintings/abstracts/colour-charts-12 Colour Charts] | [https://www.gerhard-richter.com/en/art/paintings/abstracts/colour-charts-12/4096-colours-6089/?&referer=search&title=4096&keyword=4096 4096 Colors]
*Henri Michaux | [https://www.google.de/search?q=henri+michaux+mescaline+drawings&source=lnms&tbm=isch&sa=X&ved=0ahUKEwiV5tbI8cHeAhWPPFAKHW82DTYQ_AUIDigB&biw=1097&bih=554 Mescaline Drawings] <br>
*Henri Michaux | [https://www.google.de/search?q=henri+michaux+mescaline+drawings&source=lnms&tbm=isch&sa=X&ved=0ahUKEwiV5tbI8cHeAhWPPFAKHW82DTYQ_AUIDigB&biw=1097&bih=554 Mescaline Drawings] <br>
*John Cage | [https://www.youtube.com/watch?v=B_8-B2rNw7s Music of Changes] | [https://www.youtube.com/watch?v=zvUoHxdZs4o&feature=youtu.be&t=148 I Ching (1)] |[https://www.youtube.com/watch?v=uyjOnqzjqpc I Ching (2)]
*John Cage | [https://www.youtube.com/watch?v=B_8-B2rNw7s Music of Changes] | [https://www.youtube.com/watch?v=zvUoHxdZs4o&feature=youtu.be&t=148 I Ching (1)] | [https://www.youtube.com/watch?v=uyjOnqzjqpc I Ching (2)]
<br>
<br>
*RAND Corporation | [https://www.youtube.com/watch?v=bvLD54GnOTk 1.000.000 Million Random Digits]
*RAND Corporation | [https://www.youtube.com/watch?v=bvLD54GnOTk 1.000.000 Million Random Digits]
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*Studio Nand | [https://nand.io/projects/known-unknowns The Known Unknowns]
*Studio Nand | [https://nand.io/projects/known-unknowns The Known Unknowns]


===Processing===
*translate()
*scale()
*rotate()
*random()
*arrays


==09.11.18==
*''translate()''
*''scale()''
*''rotate()''
*''random()''
*''Arrays''


==16.11.18==
<br>'''09.11.18'''
* Anastasis Germanidis | [http://agermanidis.com/#randomly-generated-social-interactions Randomly Generated Social Interactions]


==23.11.18==


==30.11.18==
*''noise()'' – 1D, 2D
*''sin(), cos()'' –  adressing points in a circular coordinate system
*''map()''


==07.12.18==
<br>'''16.11.18'''<br>
'''Drawing Machines by...'''
*[https://www.youtube.com/watch?v=cf7woGFW-Tc Jean Tuingely]
*[http://www.timknowles.co.uk Tim Knowles] 
*[http://www.dwbowen.com David Bowen] 
*[http://olafureliasson.net/archive/artwork/WEK108599/connecting-cross-country-with-a-line#slideshow Olafur Eliasson] 
*[http://www.smigla-bobinski.com/english/works/ADA/index.html Karina Smigla-Bobinski] 
*[http://sougwen.com Sougwen Chung]
*[https://www.nature.com/articles/464681b Die Helmholtz Kurven] | [https://aphelis.net/etienne-jules-marey-myograph/ Improved Myograph / Frog Drawing Machine]
<br>
*Getting started with the Plotter (HP7475A)
*''HPGL library''


==14.12.18==
<br>'''23.11.18'''
*Classes (balloons and particles reacting to two dimensional noise)
*''ArrayList''


==21.12.18==
<br>'''30.11.18'''
* Working with images
*''PImage''
*''get(x,y), get(x,y,w,h), brightness(), saturation(), red(), green(), blue()''


==11.01.18==
<br>'''07.12.18'''
 
<br>'''14.12.18'''
 
<br>'''21.12.18'''
* OSC
* FaceOSC
 
<br>'''11.01.18'''
* Motion Detection
* OpenCV & Face Detection
 
<br>'''18.01.18'''
* loading data from files and visualizing texts
 
<br>'''25.01.18'''
 
<br>'''01.02.18'''
 
 
----


==18.01.18==
==Future Topics==


==25.01.18==
* PVector
* Export svg files
* ''noise()'' – 3D
* Working with images
* Working with sound
* Working with text
* Recursion
* L-Systems


==01.02.18==
[[Category:WS18]] [[Category:Fachmodul]] [[Category:Werkmodul]]

Latest revision as of 12:22, 10 November 2020

Lecturer: Tobias Zimmer
Credits: 6 ECTS, 4 SWS
Date: Friday, 13:30 – 16:45
Venue: Marienstraße 7b, Raum 102



Description

Waiting at traffic lights, shopping online, finding a new partner, baking a cake - noticed or unnoticed, everyone is in contact with algorithms each day.

In the class Algorithmic Art we will focus on graphical algorithms and generative art, to learn how to think like a machine. The programming language Processing offers artists and designers the chance to go beyond predefined and often limiting software and allows them to create their very own tools for 2D or 3D graphics production, interactive installations, data manipulation and more. With a simplified syntax, Processing takes down high entry barriers that are usually associated with programming languages. Simple visual results are possible with just a few lines of code, with an open end to more complex output and rule systems.

We will orient ourselves to the pioneering work of early computer artists (”Algorists”) like Vera Molnar, Manfred Mohr or Frieder Nake and use a pen-plotter (self built in class or a ready-made one) to materialize the algorithms we develop in homeworks or in class. Treated topics and programming basics include: 2D shapes and geometry, variables, arrays, loops, randomness, noise, interaction, animation, functions, object orientation, working with data (image, sound, text),...

Further topics depending on interest:webcam interaction, openCV, working with libraries and API’s, 3D graphics, communication (OSC), projection mapping,…



Introductory Algorithm

Introductory Algorithm




Working with the Plotter



Student Works


Consultations in M7 Room 204

Thursday 31.01.19
13:00 - 13:30 (put your name here)
13:30 - 14:00 Lucia
14:00 - 14:30 (put your name here)
14:30 - 15:00 Ahmad 
15:00 - 15:30 (put your name here)
15:30 - 16:00 (put your name here)
16:00 - 16:30 Felix
Friday 01.02.19
13:00 - 13:30        ozan
13:30 - 14:00        hilde
14:00 - 14:30        Constantin
14:30 - 15:00        Joel
15:00 - 15:30        Christopher
15:30 - 16:00        Jonas
16:00 - 16:30        fabian

Resources

Processing


Relevant Texts


Early Computer Artists


Other artists working with code


Inspirations



Treated Topics

12.10.18


19.10.18


26.10.18

  • Variables
  • Iteration / Animation
  • For Loops
  • Nested For Loops


02.11.18
Art without author!? / Artists working with randomness



  • translate()
  • scale()
  • rotate()
  • random()
  • Arrays


09.11.18


  • noise() – 1D, 2D
  • sin(), cos() – adressing points in a circular coordinate system
  • map()


16.11.18
Drawing Machines by...


  • Getting started with the Plotter (HP7475A)
  • HPGL library


23.11.18

  • Classes (balloons and particles reacting to two dimensional noise)
  • ArrayList


30.11.18

  • Working with images
  • PImage
  • get(x,y), get(x,y,w,h), brightness(), saturation(), red(), green(), blue()


07.12.18


14.12.18


21.12.18

  • OSC
  • FaceOSC


11.01.18

  • Motion Detection
  • OpenCV & Face Detection


18.01.18

  • loading data from files and visualizing texts


25.01.18


01.02.18



Future Topics

  • PVector
  • Export svg files
  • noise() – 3D
  • Working with images
  • Working with sound
  • Working with text
  • Recursion
  • L-Systems