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Scientists arranged the first
brain-to-brain communication online, enabling participants to converse with
simple words from a distance of some 5,000 miles apart. It’s being hailed as
the neuroscientific equivalent of instant messaging, according to RT monitored reports.
In what may prove to be the ‘Eureka’
moment of the modern age, researchers using internet-linked
electroencephalogram (EEG) and magnetic stimulation (TMS) technologies allowed
participants to send the words 'hola' and 'ciao' from a location in India to a
location in France using brain sensors.
"We wanted
to find out if one could communicate directly between two people by reading out
the brain activity from one person and injecting brain activity into the second
person, and do so across great physical distances by leveraging existing
communication pathways," explained coauthor Alvaro Pascual-Leone, MD, PhD, Director of the Berenson-Allen
Center for Noninvasive Brain Stimulation at Beth Israel Deaconess Medical
Center (BIDMC) and Professor of Neurology at Harvard Medical School.
The research statement said past studies on
brain to brain communication (BCI) usually involved ‘conversation’ between a
human and a computer. In the latest study, however, researchers included other
human beings in the experiment.
Four participants, aged 28 to 50, participated in the study. One of the four volunteers was assigned to the brain-computer interface (BCI) branch and was responsible for transmitting words; the other three were involved in the computer-brain interface (CBI) section of the experiments. Their task was to receive the transmissions and understand them.
Four participants, aged 28 to 50, participated in the study. One of the four volunteers was assigned to the brain-computer interface (BCI) branch and was responsible for transmitting words; the other three were involved in the computer-brain interface (CBI) section of the experiments. Their task was to receive the transmissions and understand them.
As explained by the researchers
work, recently published in Plus One, “the research team first translated the greetings
"hola" and "ciao" into binary code and then emailed the
results from India to France. There a computer-brain interface transmitted the
message to the receiver's brain through noninvasive brain stimulation. The
subjects experienced this as phosphenes, flashes of light in their peripheral
vision.
The light
appeared in numerical sequences that enabled the receiver to decode the
information in the message, and while the subjects did not report feeling
anything, they did correctly receive the greetings.
A second similar experiment was
conducted between participants in Spain and France, with the end result being a
total error rate of 15 percent, which represented 11 percent on the decoding
end and five percent on the initial coding messaging.
"This in itself is a remarkable step in
human communication, but being able to do so across a distance of thousands of
miles is a critically important proof-of-principle for the development of
brain-to-brain communications,”
says Pascual-Leone.
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