Neural interfaces have gone through a lot of development and refinement in the last few years, becoming more sensitive and having greater ability to focus on electric signals in the brain. At the University of Florida researchers have developed an algorithm that helps the interface learn from previous events, leading to better performance in subsequent ones.
Until now, brain-machine interfaces have been designed as one-way conversations between the brain and a computer, with the brain doing all the talking and the computer following commands. The system UF engineers created actually allows the computer to have a say in that conversation, too, according to findings published this month online in the Institute of Electrical and Electronics Engineers journal IEEE Transactions on Biomedical Engineering.
“In the grand scheme of brain-machine interfaces, this is a complete paradigm change,” said Justin C. Sanchez, Ph.D., a UF assistant professor of pediatric neurology and the study’s senior author. “This idea opens up all kinds of possibilities for how we interact with devices. It’s not just about giving instructions but about those devices assisting us in a common goal. You know the goal, the computer knows the goal and you work together to solve the task.”
Scientists at UF and other institutions have been studying and refining brain-machine interfaces for years, developing and testing numerous variations of the technology with the goal of creating implantable, computer-chip-sized devices capable of controlling limbs or treating diseases.
The devices are programmed with complex algorithms that interpret thoughts. But the algorithms, or code, used in current brain-machine interfaces don’t adapt to change, Sanchez said.
“The status quo of brain-machine interfaces that are out there have static and fixed decoding algorithms, which assume a person thinks one way for all time,” he said. “We learn throughout our lives and come into different scenarios, so you need to develop a paradigm that allows interaction and growth.”
To create this type of brain-machine interface, Sanchez and his colleagues developed a system based on setting goals and giving rewards.
Fitted with tiny electrodes in their brains to capture signals for the computer to unravel, three rats were taught to move a robotic arm toward a target with just their thoughts. Each time they succeeded, the rats were rewarded with a drop of water.
The computer’s goal, on the other hand, was to earn as many points as possible, Sanchez said. The closer a rat moved the arm to the target, the more points the computer received, giving it incentive to determine which brain signals lead to the most rewards, making the process more efficient for the rat. The researchers conducted several tests with the rats, requiring them to hit targets that were farther and farther away. Despite this increasing difficulty, the rats completed the tasks more efficiently over time and did so at a significantly higher rate than if they had just aimed correctly by chance, Sanchez said.
Press release: Researchers develop neural implant that learns with the brain …
(hat tip: Thomas A. and Next Big Future)
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