The new BrainPort Vision Pro is a 2nd generation oral electronic vision aid that and object recognition as an adjunctive device to other assistive methods such. scope of application for this technology in future. Key Words: Brainport Vision Device, Tongue Device,. Electrotactile Stimulation for sensory substitution. 1. The BrainPort vision device developed by Wizan, Inc., is a wearable electronic device that helps the blind people to gain the visual effect.
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Test results for the BrainPort bainport device are no less encouraging, although Wicab has not yet performed formal clinical trials with the setup.
According to the University of Washington Department of Ophthalmology, million people in the United States alone suffer from visual impairment.
How BrainPort Works
This might be age-related, including cataracts, glaucoma and macular degeneration, from diseases like trachoma, diabetes or HIVor the result of eye trauma from an accident. BrainPort could provide vision-impaired people with limited forms of sight.
To produce tactile visionBrainPort uses a camera to capture visual data. The optical information — light that would normally hit the retina — that the camera picks up is in digital form, and it uses radio signals to send the ones and zeroes to the CPU for encoding.
Each set of pixels in the camera’s light sensor corresponds to an electrode in the array. The CPU runs a program that turns the camera’s electrical information into a spatially encoded signal. The encoded signal represents differences in pixel data as differences in pulse characteristics such as frequency, amplitude and duration.
Multidimensional image information takes the form of variances in pulse current or voltage, pulse duration, intervals between pulses and the number of pulses in a burst, among other parameters.
Patent 6,, licensed to Wicab for the BrainPort application:. The electrode array receives the resulting signal via the stimulation circuitry and applies it to the tongue.
The brain eventually learns to interpret and use the information coming from the tongue as if it were coming from the eyes. After training in laboratory tests, blind subjects were able to perceive visual traits like looming, depth, perspective, size and shape.
Enhanced Perception with the BrainPort Vision Device | IOVS | ARVO Journals
The subjects could still feel the pulses on their tongue, but they could also perceive images generated from those pulses by their brain. The subjects perceived the objects as “out there” in front of them, separate from their own bodies.
They could perceive and identify letters of the alphabet. In one case, when blind mountain climber Erik Weihenmayer was testing out the device, he was able to locate his wife in a forest. One of the most common questions at this point is, “Are they really seeing? If seeing means you can identify the letter “T” somewhere outside yourself, sense when that “T” is getting larger, smaller, changing orientation or moving farther away from your own body, then they’re really seeing.
One ivsion that conducted PET brain scans of congenitally blind people while they were using the BrainPort vision device found that after several sessions with BrainPort, the vision centers of the subjects’ brains lit up when visual information was sent to the vvision through the tongue. If “seeing” means there’s activity in the vision center of the cerebral cortex, then the blind subjects are really seeing.
The BrainPort test results are somewhat astonishing and lead many to wonder about the scope of applications for technologj technology.
In the next section, we’ll see which BrainPort applications Wicab is currently focusing on in clinical trials, what other applications it foresees for the technology and how close it is to commercially launching a consumer-friendly version of the device. Installation Begins on the 10, Year Clock.
BrainPort Vision Pro | United States | BrainPort Technologies
How Chemical Sensing Devices Work. You Can Bejewel Your Prosthetic. The BrainPort Vision Device. To the extent that a trained user may simultaneously distinguish technloogy multiple of these characteristics of amplitude, width and frequency, the pulses may convey multidimensional information in much the same way that the eye perceives color from the independent stimulation of different color receptors.