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==Drosophila Karaoke Bar [2018]== | ===Drosophila Karaoke Bar [2018]=== | ||
Ursula Damm | Ursula Damm | ||
The installation invites visitors to establish a direct exchange with fruit flies through a technical interface. A software is transforming human speech into signal that can be perceived by flies. It allows auditory feedback between people and animals. For blending human and fly songs we will use a special signal processing vocoder provided by Berd Edler of the Fraunhofer Institute for Integrated Circuits. | The installation invites visitors to establish a direct exchange with fruit flies through a technical interface. A software is transforming human speech into signal that can be perceived by flies. It allows auditory feedback between people and animals. For blending human and fly songs we will use a special signal processing vocoder provided by Berd Edler of the Fraunhofer Institute for Integrated Circuits. | ||
http://ursuladamm.de/drosophila-karaoke-bar-2018/ | *http://ursuladamm.de/drosophila-karaoke-bar-2018/ | ||
===Euglena soccer=== | |||
Riedel-Kruse Lab at stanford university | |||
Players earn points by guiding the Euglena through the goal posts. | |||
*https://www.youtube.com/watch?v=3lwU9deF8rw start at 27:05 | |||
*https://www.youtube.com/watch?v=Pdx7BkYSCq4 | |||
===Blocksworld repopulated! (2016)=== | |||
Gestaltung Medialer Umgebungen at Bauhaus University | |||
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.* The Euglenas are situated in a real world laboratory and their behavior is tracked by a computer program that translates their movement into the game in real time. | |||
*http://biogames.eu/ | |||
===Dancing with Daphnia=== | |||
Smin Kim | |||
Daphnia (waterflea color experiments documentation) | |||
*https://www.youtube.com/watch?v=ps3unZodRz8&t=36s | |||
===Performing Polyphony=== | |||
Frederic Blais-Belanger | |||
Performing Polyphony explores collaboration between species: While the dancer performs, her movements generate air streams into the water, triggering the glow of the algae. Their emission of light is then perceived by a photosensor and translated as sounds that will feed the performer's motion, thus creating a complete loop between the two organisms. | |||
*https://www.uni-weimar.de/kunst-und-gestaltung/wiki/GMU:Art_and_Biomedia/Frederic_Blais-Belanger |
Latest revision as of 14:48, 17 April 2019
Drosophila Karaoke Bar [2018]
Ursula Damm
The installation invites visitors to establish a direct exchange with fruit flies through a technical interface. A software is transforming human speech into signal that can be perceived by flies. It allows auditory feedback between people and animals. For blending human and fly songs we will use a special signal processing vocoder provided by Berd Edler of the Fraunhofer Institute for Integrated Circuits.
Euglena soccer
Riedel-Kruse Lab at stanford university
Players earn points by guiding the Euglena through the goal posts.
- https://www.youtube.com/watch?v=3lwU9deF8rw start at 27:05
- https://www.youtube.com/watch?v=Pdx7BkYSCq4
Blocksworld repopulated! (2016)
Gestaltung Medialer Umgebungen at Bauhaus University
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.* The Euglenas are situated in a real world laboratory and their behavior is tracked by a computer program that translates their movement into the game in real time.
Dancing with Daphnia
Smin Kim
Daphnia (waterflea color experiments documentation)
Performing Polyphony
Frederic Blais-Belanger
Performing Polyphony explores collaboration between species: While the dancer performs, her movements generate air streams into the water, triggering the glow of the algae. Their emission of light is then perceived by a photosensor and translated as sounds that will feed the performer's motion, thus creating a complete loop between the two organisms.