In a year, thousands of people can benefit from the so -called sound artificial organs. Their academic functions are less and more intact, but due to stroke, neurodegenerative disorder ALS, and other brain conditions, they have suffered a lack of speech. If successful, researchers hope that this technique can be extended to help people who have difficulty raising voice due to conditions like mental stroke or autism.
Voice neuroprosis capacity has begun to be interested in businesses. Health -based neuroscience claims that they are occupying high -resolution gestures than in educational researchers, as the electrodes of its employees are filled with more densely popular.
The company has worked with 31 patients and intends to collect more data as soon as possible, providing a potential trade route.
Regulatory clearance was received on April 17 to put his sensor for 30 days at a time. Chief executive Michael Major said, this will help its scientists train their system, which within a year “can” be the largest reservoir of the nerve data of the high resolution on the planet’s earth. “
The next step will be to “reduce the ingredients and keep them in the hormitic seal packages that are biocamps so that they can be applied to the body forever,” the Major said.
Elon Musk’s neuralnic, which is the most famous interface (BCI) company on the brain computer, focused on enabling computers to control computers rather than giving artificial sound to stroke.
One of the major obstacles to the development of voice technology from the brain is that the patient gives the time to learn how to use the system.
An important answer is that the question is whether the motor cortex reaction samples – the part of the brain that controls voluntary measures, including speech – different among people. BCI researcher at the University Medical Center Uttarchit, Nick Ramsey, said that if he was very similar, trained machine learning models could be used on previous persons.