GMU:Self-Organization by Design: Difference between revisions

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[[Image:Gmu-selforganisation-turing-mccabe-explorer.png|left|200px]]
[[:Category:Werkmodul|Werkmodul]]/[[:Category:Fachmodul|Fachmodul]]<br />
[[:Category:Werkmodul|Werkmodul]]/[[:Category:Fachmodul|Fachmodul]]<br />
''Lecturer:'' [[User:ms|Martin Schneider]]<br />
''Lecturer:'' [[User:ms|Martin Schneider]]<br />
Line 5: Line 6:
''Venue:'' [[Marienstraße 7b]], Room 204<br />
''Venue:'' [[Marienstraße 7b]], Room 204<br />
''First meeting:'' 2013-11-29
''First meeting:'' 2013-11-29
== Description ==
  Since this is a block workshop please make sure to sign up on the official list
  at the secretary with [[GMU:Personen#Daniela_Dembowski|Daniela Dembowski]] until October 18th.
  In addition please send an [[#Application|application email]] to Martin Schneider
  to tell him a bit about you and what you expect from this course.
This course tackles several forms of self-organisation.<br>
The subject is approached via exercises and experiments in the Processing programming language.
The three subject areas are:
* Pattern Formation (Cellular Automata and Turing Patterns)
* Dynamic Self-Organisation (Swarm-Art)
* Self-Assembly (Geometric Physics and Chemistry)


== Beschreibung ==
== Beschreibung ==
Line 16: Line 34:
* Dynamische Selbst-Organisation (Swarm-Art)  
* Dynamische Selbst-Organisation (Swarm-Art)  
* Selbst-Konfiguration (Geometrische Physik und Chemie)
* Selbst-Konfiguration (Geometrische Physik und Chemie)
== Description ==
This course tackles several forms of Self-Organisation.<br>
The subject is approached via exercises and experiments in the Processing programming language.
The three subject areas are:
* Pattern Formation (Cellular Automata and Turing Patterns)
* Dynamic Self-Organisation (Swarm-Art)
* Self-Assembly (Geometric Physics and Chemistry)


== Language ==
== Language ==
Line 32: Line 39:
The course will be in English, unless all participants are speaking German.
The course will be in English, unless all participants are speaking German.


== Leistungsnachweis ==
== Eligible Participants ==


* Regular and active participation in all three workshop blocks.
Undergraduates and graduates enrolled in the faculties of Media, Gestaltung and Architecture.
* Working on subtasks and presenting them with documentation on the wiki and on OpenProcessing
* Autonomous preparation of the course involving self-study of the relevant skills (such as programming in Processing)
* Final Assignment: Individual exploration of Self-Organisation with documentation on the wiki


== Application ==
== Requirements ==


Please sign up on the official list at the secretary with [[GMU:Personen#Daniela_Dembowski|Daniela Dembowski]].
Applicants should have some programming experience and feel comfortable with the Processing IDE.


All applicants are encouraged, to send an email
== Application ==


'''To:''' [[User:ms|Martin Schneider]]<br>
'''To:''' [[User:ms|Martin Schneider]]<br>
Line 57: Line 61:
== Syllabus ==
== Syllabus ==


This is an outline of the syllabus.<br>
  This is an outline of the syllabus.
The dates are fixed, but details of the course may be subject to change.
  The dates are fixed, but details of the course may be subject to change.
  Click on the titles to get to the subpage of each block.


{| class="wikitable"
{| class="wikitable"
Line 64: Line 69:
! Block !! Date !! Day !! Topics
! Block !! Date !! Day !! Topics
|-
|-
| rowspan="3" | Computational Systems
| rowspan="3" | [[/Part1|I. Computational Systems]]
| 29.11.2013  
| 29.11.2013  
| Fri
| Fri
Line 77: Line 82:
| Vector Fields
| Vector Fields
|-
|-
| rowspan="3" | Geometric Systems
| rowspan="3" | [[/Part2|II. Geometric Systems]]
| 06.12.2013  
| 06.12.2013  
| Fri
| Fri
Line 90: Line 95:
| Geometric Chemistry
| Geometric Chemistry
|-
|-
| rowspan="3" | Natural Systems
| rowspan="2" | [[/Part3|III. Natural Systems]]
| 13.12.2013  
| 13.12.2013  
| Fri
| Fri
| Patterns in Nature 1
| Patterns in Nature
|-
|-
| 14.12.1013
| 14.12.1013
| Sat
| Sat
| Patterns in Nature 2
| Patterns in Society
|-
|-
| 15.12.2013
| rowspan="1" | [[/Part4|IV. Final Showdown]]
| 19.01.2014
| Sun
| Sun
| Patterns in Nature 3
| Show us your Work
|-
|-
|}
|}
== Evaluation ==
* Regular and active participation in all three workshop blocks.
* Working on subtasks and presenting them with documentation on the wiki and on OpenProcessing
* Autonomous preparation of the course involving self-study of the relevant skills (such as programming in Processing)
* Final Assignment: Individual exploration of self-organisation with documentation on the wiki
== Participants ==
  This is the list of the workshop participants.
  Click on the names to get to get to their experiments and final projects.
  If you are a participant and you aren't on the list, go for it!
* [[/Clemens Bast|Clemens Bast]]


== Links ==
== Links ==


'''Sketch Collections'''
=== Processing ===


Martin Schneider has created four collections of Processing sketches   
Check out the [[Processing/Links|Processing links]] in this wiki if you are new to Processing.<br> Make sure to get comfortable with the Processing IDE before the course, so we can dive right into the code.
to give you an impression what Self-Organisation in software can look like.
 
=== Virtual Classroom ===
 
[http://www.openprocessing.org/ Open Processing] is a website for learning Processing and sharing sketches.<br>
The virtual classroom [http://www.openprocessing.org/classroom/2895 "Self-Organisation by Design"] will be
used extensively both during the course, and to publish your assignments.
 
=== Inspiration ===
 
  Below is a list of resources provided by scientists, artists and designers,
  that rely heavily on nature inspired self-organisation in their work.
 
'''Self-Organisation Collection'''
 
[http://bitcraftlab.com Martin Schneider] has created four collections of Processing sketches   
to give you an impression what self-organisation in software can look like.


* [http://www.openprocessing.org/collection/2847 Pattern Formation]
* [http://www.openprocessing.org/collection/2847 Pattern Formation]
Line 117: Line 153:
* [http://www.openprocessing.org/collection/2850 Geometric Chemistry]
* [http://www.openprocessing.org/collection/2850 Geometric Chemistry]


'''Virtual Classroom'''
'''The Nature of Code'''
 
[http://www.openprocessing.org/ Open Processing] is a website for learning Processing and sharing sketches.<br>
The virtual classroom [http://www.openprocessing.org/classroom/2895 "Self-Organisation by Design"] will be
used extensively both during the course, and to publish your assignments.


'''The Nature of Code by Dan Shiffman'''
[http://shiffman.net/ Daniel Shiffman] has published a Processing book on Natural Systems, that is available online. <br>
 
Daniel Shiffman has published a Processing book on Natural Systems, that is available online. <br>
Some chapters are quite relevant to the kind
Some chapters are quite relevant to the kind
of systems we are going to explore in our course.  
of systems we are going to explore in our course.  
Line 133: Line 163:
* [http://natureofcode.com/book/chapter-8-fractals/ Fractals]
* [http://natureofcode.com/book/chapter-8-fractals/ Fractals]


[[Category:WS13]]
Inspired by the ''Nature of Code'', [http://www.diana-lange.de Diana Lange] did her own explorations of Natural
[[Category:Werkmodul]]
Systems.<br>
[[Category:Fachmodul]]
Her works are an excellent example of what you can achieve with Processing given the right combination
[[Category:Processing]]
of artistic and programming skills, dedication to the subject and a good eye for visual detail.
[[Category:Gestaltung]]
 
[[Category:Design]]
* [http://www.diana-lange.de/portfolio/generative/nature_of_code/nature.html Diana Lange's Nature of Code]
[[Category:Selbstorganisation]]
* [http://www.openprocessing.org/user/5969 OpenProcessing Portfolio of Diana Lange]
 
'''Nervous System'''
 
[http://n-e-r-v-o-u-s.com/about_us.php Jessica Rosenkrantz and Jesse Eisenberg] are making use of self-organisation to generate 2D and 3D printable forms.<br>
Their work relies on scientific models of growth, such as [[Diffusion Limited Aggregation]] and [[Laplacian Growth]] which we will explore in our course.
 
* [http://www.flickr.com/photos/jrosenk/sets/ Nervous System on Flickr]
* [http://n-e-r-v-o-u-s.com/projects/puzzles/ Generative Jigsaw Puzzles] + [http://n-e-r-v-o-u-s.com/projects/puzzles/jigsaw-paper.pdf Scientific Paper] (PDF)
 
'''Jonathan McCabe'''
 
[http://jonathanmccabe.com/ Jonathan McCabe] is a scientist who uses self-organisation to create art.<br>
His works are visually stunning and unique, and the code behind them is a well-kept secret.<br>
However the open source community has managed to recreate some of his algorithms in Processing.
We will study those algorithms and explore the kind of patterns they can create.
 
* [http://www.flickr.com/photos/jonathanmccabe/sets/ Jonathan McCabe's Art on Flickr]
* [http://jonathanmccabe.com/Cyclic_Symmetric_Multi-Scale_Turing_Patterns.pdf Cyclic Symmetric Multi-Scale Turing Patterns]
* [http://www.openprocessing.org/sketch/33444 Turing-McCabe Pattern Explorer]
 
== Literature ==
 
{{Self-organization/Literature}}
 
=== Processing ===
 
  This is a list of recommended books for the Processing language.
 
{{ProcessingBooks}}
 
=== Further Reading ===
 
  There are a couple of books in the Semesterapparat of [[GMU:Things_that_organize_themselves|Things that organize themselves]], that you might want to flip trough:
 
{{Self-organization/Semesterapparat_WS2013}}


[[Category:WS13]]
[[Category:WS13]]
Line 147: Line 212:
[[Category:Gestaltung]]
[[Category:Gestaltung]]
[[Category:Design]]
[[Category:Design]]
[[Category:Generative Gestaltung]]
[[Category:Selbstorganisation]]
[[Category:Selbstorganisation]]
[[Category:Martin Schneider]]

Latest revision as of 15:24, 6 February 2014

Gmu-selforganisation-turing-mccabe-explorer.png

Werkmodul/Fachmodul
Lecturer: Martin Schneider
Credits: 6 ECTS, 4 SWS
Date: Block-Workshops
Venue: Marienstraße 7b, Room 204
First meeting: 2013-11-29

Description

 Since this is a block workshop please make sure to sign up on the official list
 at the secretary with Daniela Dembowski until October 18th.
 In addition please send an application email to Martin Schneider
 to tell him a bit about you and what you expect from this course.

This course tackles several forms of self-organisation.
The subject is approached via exercises and experiments in the Processing programming language.

The three subject areas are:

  • Pattern Formation (Cellular Automata and Turing Patterns)
  • Dynamic Self-Organisation (Swarm-Art)
  • Self-Assembly (Geometric Physics and Chemistry)

Beschreibung

Dieser Kurs setzt sich mit verschiedenen Formen der Selbst-Organisation auseinander.
Das geschieht in Form von Übungen und Experimenten mit der Programmiersprache Processing.

Die drei Themengebiete sind:

  • Muster-Bildung (Zelluläre Automaten und Turing Patterns)
  • Dynamische Selbst-Organisation (Swarm-Art)
  • Selbst-Konfiguration (Geometrische Physik und Chemie)

Language

The course will be in English, unless all participants are speaking German.

Eligible Participants

Undergraduates and graduates enrolled in the faculties of Media, Gestaltung and Architecture.

Requirements

Applicants should have some programming experience and feel comfortable with the Processing IDE.

Application

To: Martin Schneider
Subject: Self-Organisation by Design /// Application

Please provide a short answer to the questions below:

  • What's your programming expertise? (Programming languages, generative works, projects ...)
  • What do you already know about self-organisation (Books you read, related courses you took)
  • What kind of computational processes are you most interested in? (Cellular Automata, Swarm Systems ...)
  • What kind of patterns in nature would you like to learn more about?

Syllabus

 This is an outline of the syllabus.
 The dates are fixed, but details of the course may be subject to change.
 Click on the titles to get to the subpage of each block.
Block Date Day Topics
I. Computational Systems 29.11.2013 Fri Cellular Automata
30.11.1013 Sat Particle Systems
01.12.2013 Sun Vector Fields
II. Geometric Systems 06.12.2013 Fri Swarm Art
07.12.1013 Sat Geometric Physics
08.12.2013 Sun Geometric Chemistry
III. Natural Systems 13.12.2013 Fri Patterns in Nature
14.12.1013 Sat Patterns in Society
IV. Final Showdown 19.01.2014 Sun Show us your Work

Evaluation

  • Regular and active participation in all three workshop blocks.
  • Working on subtasks and presenting them with documentation on the wiki and on OpenProcessing
  • Autonomous preparation of the course involving self-study of the relevant skills (such as programming in Processing)
  • Final Assignment: Individual exploration of self-organisation with documentation on the wiki

Participants

 This is the list of the workshop participants.
 Click on the names to get to get to their experiments and final projects.
 If you are a participant and you aren't on the list, go for it! 

Links

Processing

Check out the Processing links in this wiki if you are new to Processing.
Make sure to get comfortable with the Processing IDE before the course, so we can dive right into the code.

Virtual Classroom

Open Processing is a website for learning Processing and sharing sketches.
The virtual classroom "Self-Organisation by Design" will be used extensively both during the course, and to publish your assignments.

Inspiration

 Below is a list of resources provided by scientists, artists and designers,
 that rely heavily on nature inspired self-organisation in their work.

Self-Organisation Collection

Martin Schneider has created four collections of Processing sketches to give you an impression what self-organisation in software can look like.

The Nature of Code

Daniel Shiffman has published a Processing book on Natural Systems, that is available online.
Some chapters are quite relevant to the kind of systems we are going to explore in our course.

Inspired by the Nature of Code, Diana Lange did her own explorations of Natural Systems.
Her works are an excellent example of what you can achieve with Processing given the right combination of artistic and programming skills, dedication to the subject and a good eye for visual detail.

Nervous System

Jessica Rosenkrantz and Jesse Eisenberg are making use of self-organisation to generate 2D and 3D printable forms.
Their work relies on scientific models of growth, such as Diffusion Limited Aggregation and Laplacian Growth which we will explore in our course.

Jonathan McCabe

Jonathan McCabe is a scientist who uses self-organisation to create art.
His works are visually stunning and unique, and the code behind them is a well-kept secret.
However the open source community has managed to recreate some of his algorithms in Processing. We will study those algorithms and explore the kind of patterns they can create.

Literature

Self-Organization

 This is a list of must-read books.
 Try to get them at the libary, or buy them - you won't regret it.

Self-Organization Topics

 This is a hand-picked list of resources for individual topics related to self-organisation.
 We will not be able to cover all the details in the course, but the books may come in handy for your projects.

Computational Systems

Science Books

Popular Science Books

Computer Science Books

  • Bonabeau, Eric: Swarm Intelligence. From Natural to Artificial Systems ISBN 978-0195131598
  • Ilachinski, Andrew: Cellular Automata: A Discrete Universe ISBN 978-9812381835
  • Peitgen H., Jürgens H., Saupe D.: Chaos and Fractals: New Frontiers of Science ISBN 978-0387202297
  • Floreano D., Mattiussi C.: Bio-Inspired Artificial Intelligence: Theories, Methods, and Technologies ISBN 978-0262062718

Hands-On Programming Books

  • Jacob, Christian: Principia Evolvica. Simulierte Evolution mit Mathematica ISBN 978-3920993485
  • Flake, Gary W.: The Computational Beauty of Nature: Computer Explorations of Fractals, Chaos, Complex Systems, and Adaptation ISBN 978-0262561273
  • Resnick, Mitchel et alter: Adventures in Modeling: Exploring Complex, Dynamic Systems with Starlogo ISBN 978-0807740828

Coffee Table Books

  • Wolfram, Stephen: A New Kind of Science ISBN 978-1579550080
  • Trefethen, Lloyd N., Embree Kristine: The (unfinished) PDE Coffee Table Book online (unpublished)

Media Art, Craft and Architecture

Geometric Systems

Popular Science Books

Mathematics of Folding

  • O'Rourke Joseph: How to Fold It: The Mathematics of Linkages, Origami and Polyhedra ISBN 978-0521145473
  • Demaine, Erik; O'Rourke, Joseph: Geometric Folding Algorithms: Linkages, Origami, Polyhedra ISBN 978-0521857574

Mathematics of Tiling

  • Grünbaum, B., Shepard G.C.: Tilings and Patterns ISBN 978-0716711933
  • Bigalke Hans G.: Reguläre Parkettierungen. Mit Anwendungen in Kristallographie, Industrie, Baugewerbe, Design und Kunst ISBN 978-3411167111

Geometric Programming

Evolutionary Design

Media Art, Craft and Architecture

Natural Systems

Algorithmic Beauty

Fractal Growth

Self-Organization

Collective Behaviour

Simulating Society

  • Epstein, Joshua M.: Growing Artificial Societies: Social Science From the Bottom Up ISBN 978-0-262-55025-3
  • Batty, Michael: Cities and Complexity: Understanding Cities with Cellular Automata, Agent-Based Models, and Fractals ISBN 978-0262524797
  • Schweitzer, Frank: Brownian Agents and Active Particles: Collective Dynamics in the Natural and Social Sciences ISBN 3-540-43938-2

Popular Science Books

Coffee Table Books

Processing

 This is a list of recommended books for the Processing language.
  • Bartmann, Erik: Processing: kreativ programmieren mit Processing; für Designer, Künstler und Geeks; visuelle Welten gestalten ISBN 978-3-89721-997-7
  • Greenberg, Ira Processing: Creative Coding and Computational Art ISBN 9781590596173
  • Hartmut Bohnacker, Benedikt Groß, Julia Laub (herausg.: Lazzeroni, Claudius): Generative Gestaltung: Entwerfen. Programmieren. Visualisieren. ISBN 978-3-87439-759-9
  • Maeda, John: Creative Code: Ästhetik und Programmierung am MIT Media Lab ISBN 3764371080
  • Maeda, John: Maeda@media ISBN 0500282358
  • Noble, Joshua: Programming interactivity: a designer's guide to processing, Arduino, and openFrameworks ISBN 0-596-15414-3
  • Pearson, Matt: Generative Art - A Practical Guide Using Processing, 2011 Manning, ISBN 978-1935182627
  • Reas, Casey; Fry, Ben: Processing: A Programming Handbook for Visual Designers and Artists ISBN 978-0262182621
  • Reas, Casey; McWilliams, Chandler: Form+Code in Design, Art, and Architecture ISBN 978-1568989372
  • Shiffman, Daniel Learning Processing: A Beginner's Guide to Programming Images, Animation, and Interaction ISBN 9780123736024
  • Terzidis, Kostas: Algorithms for visual design using the processing language ISBN 978-0-470-37548-8

Further Reading

 There are a couple of books in the Semesterapparat of Things that organize themselves, that you might want to flip trough:

Semesterapparat WS2013 (Limona Empore bis 15.02.2014)