GMU:BioGames/Angelica Sohn

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Hic et Nunc: Exploration of Our Microcosms and Macrocosms

Jakob von Uexkull's Unwelt theory of microcosms and macrocosms sheds light an important factor: communication. As a tick has its own spatial and visual worlds, we too have our own Umwelt, in which our senses of sound, sight, touch, and time are defined independently of those around us. I am interested in exploring the microcosms and macrocosms of our own unique universe, in which it is not our behaviors that define us, but the brain. The brain is responsible for everything we do and feel, and the microcosm in our head ultimately decides the macrocosm we live and cultivate. When neurons communicate with each other, they are in their own unique worlds with equal completeness as our own outer manifestations. By comparing the way neurons communicate with each other - thereby affecting our external manifestations - and the way we communicate with others, we can begin to explore and investigate the different worlds we are part of. How do our microcosms affect our macrocosms?


Jakob von Uexkull

"all animals, from the simplest to the most complex, are fitted into their unique worlds with equal completeness."

TIME: the only objectively stable thing in the world and the subject sways time on its own world. Without a living subject, there can be no time

The first task of the Unwelt research:

  • identify each animal's perceptual cues among all the stimuli in its environment
  • the widespread conviction that there is only one space and one time for all living things is a fallacy

The question is: can we see the images of our experiences?

EEG measures brainwaves, visual representations of neural activity (brain's electrical response to stimuli: cortical evoked response)

Yunchul Kim

Effulge <videoflash type="vimeo">47310261|640|480</videoflash> <videoflash type="vimeo">73452227|640|480</videoflash>

Kusama Yayoi

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Audio and Servo motors combined: magnets attached to the strings

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File:IMG_1296.jpg: Broken paper clips embedded in powdered aluminum with magnets attached on the side

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Side shot.jpg

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Brain Waves
Binaural Delta Waves Audio
Binaural Theta Waves Audio
Binaural Alpha Waves Audio
Binaural Gamma Waves Audio
Binaural Beta Waves Audio