BrainPort Lets the Blind "See" With Their Tongues

Hugh Pickens writes "Scientific American reports that a new device called 'BrainPort' aims to restore the experience of vision for the blind and visually impaired by relying on the nerves on the tongue's surface to send light signals to the brain. BrainPort collects visual data through a small digital video camera and converts the signal into electrical pulses sent to the tongue via a 'lollipop' that sits directly on the tongue, where densely packed nerves receive the incoming electrical signals. White pixels yield a strong electrical pulse and the electrodes spatially correlate with the pixels, so that if the camera detects light fixtures in the middle of a dark hallway, electrical stimulations will occur along the center of the tongue. Within 15 minutes of using the device, blind people can begin interpreting spatial information. 'At first, I was amazed at what the device could do,' says research director William Seiple. 'One guy started to cry when he saw his first letter.'" There is some indication that the signals from the tongue are processed by the visual cortex. The company developing the BrainPort will submit it to the FDA for approval later this month, and it could be on sale (for around $10,000) by the end of the year.

Pattern Stream Processing.

[curmudgeon99]

The human brain is adept at processing pattern streams. These are two-dimensional datasets that change over regular intervals of time. In the specific case of this tongue-sight project, they are taking advantage of the ability of the tongue to transmit many "pixels" of sensory information in a square grid. Which pins poked into the tongue governed what the brain got that instant of time. So, by reading the changing pattern of the dots, the brain can learn to process that pattern stream in the same way it learns to process the pattern stream that is the million or so "pixels" of information each eye sends, each unit of time. The left brain hemisphere processes Linear-Sequential Information. The right brain hemisphere processes Visual-Simultaneous Information. We know that from the Nobel-prize-winning [1980] research of Dr. Roger Sperry. Current computers process information in a linear, sequential fashion--much like the left hemisphere works. The true breakthroughs in AI will come when we can process and interpret the pattern streams that reach the right hemisphere, the image-oriented streams. The complex interplay between the faster linear-sequential hemisphere and the holistic visual-simultaneous hemisphere is what creates consciousness. This tongue-stream is a great idea.