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About the solution
Since 2004, though, he's experienced color through sound via a device he calls the "eyeborg". It's a cybernetic third eye of sorts that he keeps strapped to his head at all times. The device translates the wavelengths of different colors into audible tones, then sends them to Harbisson's inner ears via bone conduction. The eyeborg can detect 360 different hues — not nearly as many as the normal human eye is capable of detecting, but still a lot better than no color at all.
“The eyeborg” transposes color into a continuous electronic beep, exploiting the fact that both light and sound are made up of waves of various frequencies. Red, at the bottom of the visual spectrum and with the lowest frequency, sounds the lowest, and violet, at the top, sounds highest. A chip at the back of Harbisson’s head performs the necessary computations, and a pressure-pad allows color-related sound to be conducted to Harbisson’s inner ear through the vibration of his skull, leaving his outer ears free for normal noise.
The first eyeborg was created in England in 2003 by Adam Montandon in collaboration with Neil Harbisson.
Adapted from: http://mashable.com/2013/06/01/eyeborg/
More info: http://www.eyeborgapp.com/
Watch the video: https://www.youtube.com/watch?v=Ts_-XVPQOGM
This solution shall not include mention to the use of drugs, chemicals or biologicals (including food); invasive devices; offensive, commercial or inherently dangerous content. This solution was not medically validated. Proceed with caution! If you have any doubts, please consult with a health professional.
DISCLAIMER: This story was written by someone who is not the author of the solution, therefore please be advised that, although it was written with the utmost respect for the innovation and the innovator, there can be some incorrect statements. If you find any errors please contact the patient Innovation team via info@patient-innovation.com
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How a rare retinal disease led this patient to develop a new assistive technology
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How a rare retinal disease led this patient to develop a new assistive technology
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Using AI to allow blind people to find familiar faces
COMMUNICATION: Communicating, whether by speaking, listening, or other means
Social interaction
Blindness
5 Senses support devices: (glasses, hearing aids, headphones...)
Body-Worn solutions (Clothing, accessories, shoes, sensors...)
App (Including when connected with wearable)
AI algorithm
Assistive Daily Life Device (to help ADL)
Difficulty communicating with environment
Confusion
Regaining sensory function
Promoting self-management
Promoting inclusivity and social integration
Improving Speech and Communication
Raise awareness
Ophthalmology
Pediatrics
United States
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