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[[File: | [[File:_MG_9234.JPG|300px|thumb|left|Maike Effenberg: Bacteria after one week]] | ||
''Lecturer:'' [[ | ''Lecturer:'' [[:Category:Mindaugas Gapševičius|Mindaugas Gapševičius]]<br> | ||
''Credits:'' 6 [[ECTS]], 4 [[SWS]]<br> | ''Credits:'' 6 [[ECTS]], 4 [[SWS]]<br> | ||
''Date:'' Thursday 13:30-16:45<br> | ''Date:'' Thursday 13:30-16:45<br> | ||
''Venue:'' [[Marienstraße 7b]], [[GMU:Bio-lab|Biolab]] (Room 202)<br> | ''Venue:'' [[Marienstraße 7b]], [[GMU:Bio-lab|Biolab]] (Room 202)<br> | ||
''First meeting:'' Thursday, 13 April | ''First meeting:'' Thursday, 13 April 2017; 13:30-16:45<br> | ||
<br style="clear: both"> | |||
Board games are usually designed for people, but could we think of a board game designed to be played between humans and flies or between bacteria and yeast? What about a more complex game involving humans, microorganisms and objects? | Board games are usually designed for people, but could we think of a board game designed to be played between humans and flies or between bacteria and yeast? What about a more complex game involving humans, microorganisms and objects? | ||
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The course will be held in the DIY Biolab of the Media Environments chair. The developed games will be presented during the planned show in the Fall of 2017. | The course will be held in the DIY Biolab of the Media Environments chair. The developed games will be presented during the planned show in the Fall of 2017. | ||
== Syllabus == | |||
*13th April / [[/Short introduction to organisms|Short introduction to organisms]] | |||
*20th April / [[/Short introduction to board games|Short introduction to board games]] | |||
*27th April / [[/Slime molds|Slime molds]]; Jonas | |||
*4th May / [[/Photosynthetic Organisms|Photosynthetic Organisms (Algae, Cyanobacteria, Euglena)]]; Annika, Mira | |||
*11th May / [[/Microbial communication|Microbial communication]]; Maike | |||
*18th May / Gudrun Rauwolf presenting concept of the exhibition in Jena | |||
*25th May / holiday; wiki update | |||
*1st June / | |||
*8th June / | |||
*15th June / | |||
*22nd June / | |||
*29th June / no class; | |||
*6th July / | |||
*12th July / preparation for Summaery | |||
*13th-16th July / Summaery | |||
==Students== | |||
*Annika Wappelhorst | |||
*Sarah Hermanutz | |||
*[[/Nastaran Sahraei|Nastaran Sahraei (Nassi)]] | |||
*[[/Mira Burchardt|Mira Burchardt]] | |||
*[[/Maike Effenberg|Maike Effenberg]] | |||
*Valentine Rouillard | |||
==Related projects== | |||
===Gordan Savičić=== | |||
BioPong (2006), http://www.yugo.at/processing/archive/index.php?what=biopong, https://www.youtube.com/watch?v=R6HY4-0vZsE | |||
The AI is performed by a cockroach which carries a neon-green pixel on its shoulder. Players can control their sticks but are not able to foresee the movement of the CI (cockroach intelligence) | |||
===Wim van Eck=== | |||
Bug-man, http://www.wimeck.com/portfolio-items/bug-man/ | |||
A Pac-Man computer game in which the virtual ghost characters are controlled by real crickets that run around in a real maze. | |||
===Ken Rinaldo=== | |||
Augmented Fish Reality (2003), http://www.kenrinaldo.com/portfolio/augmented-fish-reality/ | |||
The Augmented Fish is comprised of 5 rolling robotic fish-bowls, designed to explore interspecies and transpecies communication. In these interactive robotic sculptures, Siamese fighting fish use intelligent hardware and software to move their fish bowls anywhere that they desire. | |||
===Ingmar Riedel-Kruse lab at stanford university=== | |||
Trap it!, http://web.stanford.edu/group/riedel-kruse/publications/CHI517-lee.pdf | |||
Museum visitors could use blue, green or red light to draw patterns on the screen and observe how the Euglena reacted. The microorganisms avoided blue light, so drawing a circle around one of the microbes would trap it, which became the name for one of the scientific mini-games | |||
Euglena soccer, https://www.youtube.com/watch?v=3lwU9deF8rw start at 27:05, https://www.youtube.com/watch?v=Pdx7BkYSCq4 | |||
Players earn points by guiding the Euglena through the goal posts. | |||
===adam bartley=== | |||
Protozoan Pacman, https://www.youtube.com/watch?v=TVxNvWCTbYo\ | |||
<br>Collaboration with scientist Professor Erik Andrew Johannessen, https://www.usn.no/news/news-archive/microscopic-pac-man-article194708-26881.html | |||
An experiment using micro scenography and film lighting to film the behaviour of single celled organisms. Feel free to play your own music over the images. And remember, the maze is just 1mm wide! | |||
===Stephen Wilson=== | |||
Protozoa Games (2003-2008), http://userwww.sfsu.edu/swilson/art/protozoagames/protogames10.html | |||
Protozoa Games interactive installations allow humans and live protozoa to compete in pinball-like environments mediated by digital microscope and motion tracking technologies. A digital microscope tracks the activities of a variety of live single celled animals such as stentor, paramecia, amoebae, vorticella, volvox, and rotifers and projects the images on a large screen. At the same time humans are invited to engage in various movement 'games' in the space in front of the screen. | |||
===Mixed Reality Lab (Roger Thomas K C Tan, James K S Teh, Adrian David Cheok)=== | |||
Metazoa Ludens (2006-), http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.85.3012&rep=rep1&type=pdf, https://www.youtube.com/watch?v=7o7UIpOy5LA | |||
Inter-species media interaction which allows human users to interact and play with their small pet friends (in this case hamsters) remotely via the Internet through a mixed reality based game system "Metazoa Ludens". | |||
===Hogeschool voor de Kunsten Utrecht=== | |||
Pig Chase (2012), http://www.playingwithpigs.nl/ | |||
Designing new forms of human-pig interaction can create the opportunity for consumers and pigs to forge new relations as well as to experience the cognitive capabilities of each other. | |||
===GMU=== | |||
Blocksworld repopulated! (2016), http://biogames.eu/ | |||
“The BioGame ‘Blocksworld repopulated!’ gives you the opportunity to plunge into a labyrinth populated by microorganisms that you can interact with. Instead of encountering programmed entities in ‘Blocksworld repopulated!’ you are playing with living Euglenas, uni-cellular organisms that are part plants and part animals.” | |||
Maike Effenberg, BIO.MATCH, https://www.uni-weimar.de/kunst-und-gestaltung/wiki/GMU:Intro_to_BioArt/Maike_Effenberg#Eigene_Arbeiten | |||
Bactria are an important part of our life. We know that they in uence our health physically as well as mentally. All of us are in a constant exchange of information via bacteria. We are just starting to understand how they in uence us and how we can use them to make the world a better place. | |||
This project goes one step further and helps you to answer a sought-after asked question „How do I nd my partner for life?“. bio.match uses your bacteria to nd a partner that really matches to you. Also visit: https:// www.instagram.com/bio.match/ | |||
Dimitri Engelhardt, DAMOCLES, https://www.uni-weimar.de/kunst-und-gestaltung/wiki/GMU:Intro_to_BioArt/Dimitri_Engelhardt#Projekt_-_DAMOCLES | |||
This little habitat addresses the degeneration as essential part of the evolution and development, for filling niches. | |||
Smin Kim, Dancing with Daphnia, https://www.youtube.com/watch?v=2eRdbNO74Rw , https://www.youtube.com/watch?v=ps3unZodRz8 | |||
Installation Dancing with Daphnia invites visitor to interact with little creatures also known as water fleas. While visitor moves the hands, the aquarium is lit up with different color letting water fleas to swim back and forth. As the interaction happens between unequal creatures, the human and the water flea, the work raises up ethical issues and the visitor is suggested to think of human in regard to water flea. | |||
===Roland van Dierendonck et al=== | |||
Instructions for Biotic Gaming Device assembly for Euglena, https://www.youtube.com/watch?v=9pQG9h8-nvQ | |||
Verena Vuori, Toys for and by Pigs, https://www.verenavuori.com/blank-5 | |||
== Grading == | |||
<br>20 % Theory | |||
<br>50 % Practical implementation of the project | |||
<br>30 % Documentation including 10% of updates in Wiki | |||
== Eligible Participants == | |||
Undergraduates and graduates enrolled in the faculties of Media and Design. | |||
[[Category:Bioart]] | |||
[[Category:SS17]] | |||
[[Category:Werkmodul]] | |||
[[Category:Fachmodul]] | |||
[[Category:Mindaugas Gapševičius]] |
Latest revision as of 20:53, 19 February 2021
Lecturer: Mindaugas Gapševičius
Credits: 6 ECTS, 4 SWS
Date: Thursday 13:30-16:45
Venue: Marienstraße 7b, Biolab (Room 202)
First meeting: Thursday, 13 April 2017; 13:30-16:45
Board games are usually designed for people, but could we think of a board game designed to be played between humans and flies or between bacteria and yeast? What about a more complex game involving humans, microorganisms and objects?
The aim of the course is to grasp the environment and interactions of chosen organism(s). While trying to understand biological sensors of living organisms (light, motion, temperature, magnetic fields, nutrients) we will envision and implement strategies for interaction between humans and nonhumans. The course will include analysis of sensorimotor activity of the selected organisms, discourses around similar artworks and discussions on interactivity in a physical environment.
The course will be held in the DIY Biolab of the Media Environments chair. The developed games will be presented during the planned show in the Fall of 2017.
Syllabus
- 13th April / Short introduction to organisms
- 20th April / Short introduction to board games
- 27th April / Slime molds; Jonas
- 4th May / Photosynthetic Organisms (Algae, Cyanobacteria, Euglena); Annika, Mira
- 11th May / Microbial communication; Maike
- 18th May / Gudrun Rauwolf presenting concept of the exhibition in Jena
- 25th May / holiday; wiki update
- 1st June /
- 8th June /
- 15th June /
- 22nd June /
- 29th June / no class;
- 6th July /
- 12th July / preparation for Summaery
- 13th-16th July / Summaery
Students
- Annika Wappelhorst
- Sarah Hermanutz
- Nastaran Sahraei (Nassi)
- Mira Burchardt
- Maike Effenberg
- Valentine Rouillard
Related projects
Gordan Savičić
BioPong (2006), http://www.yugo.at/processing/archive/index.php?what=biopong, https://www.youtube.com/watch?v=R6HY4-0vZsE
The AI is performed by a cockroach which carries a neon-green pixel on its shoulder. Players can control their sticks but are not able to foresee the movement of the CI (cockroach intelligence)
Wim van Eck
Bug-man, http://www.wimeck.com/portfolio-items/bug-man/
A Pac-Man computer game in which the virtual ghost characters are controlled by real crickets that run around in a real maze.
Ken Rinaldo
Augmented Fish Reality (2003), http://www.kenrinaldo.com/portfolio/augmented-fish-reality/
The Augmented Fish is comprised of 5 rolling robotic fish-bowls, designed to explore interspecies and transpecies communication. In these interactive robotic sculptures, Siamese fighting fish use intelligent hardware and software to move their fish bowls anywhere that they desire.
Ingmar Riedel-Kruse lab at stanford university
Trap it!, http://web.stanford.edu/group/riedel-kruse/publications/CHI517-lee.pdf
Museum visitors could use blue, green or red light to draw patterns on the screen and observe how the Euglena reacted. The microorganisms avoided blue light, so drawing a circle around one of the microbes would trap it, which became the name for one of the scientific mini-games
Euglena soccer, https://www.youtube.com/watch?v=3lwU9deF8rw start at 27:05, https://www.youtube.com/watch?v=Pdx7BkYSCq4
Players earn points by guiding the Euglena through the goal posts.
adam bartley
Protozoan Pacman, https://www.youtube.com/watch?v=TVxNvWCTbYo\
Collaboration with scientist Professor Erik Andrew Johannessen, https://www.usn.no/news/news-archive/microscopic-pac-man-article194708-26881.html
An experiment using micro scenography and film lighting to film the behaviour of single celled organisms. Feel free to play your own music over the images. And remember, the maze is just 1mm wide!
Stephen Wilson
Protozoa Games (2003-2008), http://userwww.sfsu.edu/swilson/art/protozoagames/protogames10.html
Protozoa Games interactive installations allow humans and live protozoa to compete in pinball-like environments mediated by digital microscope and motion tracking technologies. A digital microscope tracks the activities of a variety of live single celled animals such as stentor, paramecia, amoebae, vorticella, volvox, and rotifers and projects the images on a large screen. At the same time humans are invited to engage in various movement 'games' in the space in front of the screen.
Mixed Reality Lab (Roger Thomas K C Tan, James K S Teh, Adrian David Cheok)
Metazoa Ludens (2006-), http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.85.3012&rep=rep1&type=pdf, https://www.youtube.com/watch?v=7o7UIpOy5LA
Inter-species media interaction which allows human users to interact and play with their small pet friends (in this case hamsters) remotely via the Internet through a mixed reality based game system "Metazoa Ludens".
Hogeschool voor de Kunsten Utrecht
Pig Chase (2012), http://www.playingwithpigs.nl/
Designing new forms of human-pig interaction can create the opportunity for consumers and pigs to forge new relations as well as to experience the cognitive capabilities of each other.
GMU
Blocksworld repopulated! (2016), http://biogames.eu/
“The BioGame ‘Blocksworld repopulated!’ gives you the opportunity to plunge into a labyrinth populated by microorganisms that you can interact with. Instead of encountering programmed entities in ‘Blocksworld repopulated!’ you are playing with living Euglenas, uni-cellular organisms that are part plants and part animals.”
Maike Effenberg, BIO.MATCH, https://www.uni-weimar.de/kunst-und-gestaltung/wiki/GMU:Intro_to_BioArt/Maike_Effenberg#Eigene_Arbeiten
Bactria are an important part of our life. We know that they in uence our health physically as well as mentally. All of us are in a constant exchange of information via bacteria. We are just starting to understand how they in uence us and how we can use them to make the world a better place. This project goes one step further and helps you to answer a sought-after asked question „How do I nd my partner for life?“. bio.match uses your bacteria to nd a partner that really matches to you. Also visit: https:// www.instagram.com/bio.match/
Dimitri Engelhardt, DAMOCLES, https://www.uni-weimar.de/kunst-und-gestaltung/wiki/GMU:Intro_to_BioArt/Dimitri_Engelhardt#Projekt_-_DAMOCLES
This little habitat addresses the degeneration as essential part of the evolution and development, for filling niches.
Smin Kim, Dancing with Daphnia, https://www.youtube.com/watch?v=2eRdbNO74Rw , https://www.youtube.com/watch?v=ps3unZodRz8
Installation Dancing with Daphnia invites visitor to interact with little creatures also known as water fleas. While visitor moves the hands, the aquarium is lit up with different color letting water fleas to swim back and forth. As the interaction happens between unequal creatures, the human and the water flea, the work raises up ethical issues and the visitor is suggested to think of human in regard to water flea.
Roland van Dierendonck et al
Instructions for Biotic Gaming Device assembly for Euglena, https://www.youtube.com/watch?v=9pQG9h8-nvQ
Verena Vuori, Toys for and by Pigs, https://www.verenavuori.com/blank-5
Grading
20 % Theory
50 % Practical implementation of the project
30 % Documentation including 10% of updates in Wiki
Eligible Participants
Undergraduates and graduates enrolled in the faculties of Media and Design.