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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.
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.