Computers

Biological and artificial neurons connect and communicate online

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Researchers have taken the next step in developing artificial neurons and synapses
A diagram showing where and how the biological and artificial neurons connected and communicated with each other
University of Southampton
Researchers have taken the next step in developing artificial neurons and synapses

Researchers in Europe and the UK have managed to connect biological and artificial neurons together – and allow them to communicate long distances through the internet. The biological neurons were grown in one country, sent signals through an artificial synapse located in another to electronic neurons in a third country.

As advanced as supercomputers get, the human brain still utterly leaves them in the dust. It’s made up of neurons that communicate with each other through pulses of electrical signals, passed across tiny gaps known as synapses. These neurons can both process and store information, unlike computers that require separate types of memory for each task.

Artificial versions of neurons and synapses have shown to be far more powerful than traditional computer chip designs, but they’re still in the experimental stage. And now, a team of researchers has taken the next step and connected the artificial and biological versions between three different countries.

Biological rat neurons were grown in a lab in Italy, at the University of Padova. Meanwhile, artificial neurons were made on silicon chips in Switzerland, at the University of Zurich and ETH Zurich. And these two different technologies communicated through artificial synapses, known as “memristors,” operated at the University of Southampton in the UK.

A diagram showing where and how the biological and artificial neurons connected and communicated with each other
University of Southampton

Spiking events were produced by the rat neurons and traveled over the internet to the memristors. These translated the signals into electronic spikes, then passed them onto the artificial neurons in Zurich. The system also worked just as well the other way around, allowing the biological and artificial components to quickly communicate in both directions.

“We are very excited with this new development,” says Themis Prodromakis, corresponding author of the study. “On one side it sets the basis for a novel scenario that was never encountered during natural evolution, where biological and artificial neurons are linked together and communicate across global networks; laying the foundations for the Internet of Neuro-electronics. On the other hand, it brings new prospects to neuroprosthetic technologies, paving the way towards research into replacing dysfunctional parts of the brain with AI chips.”

The research was published in the journal Scientific Reports.

Source: University of Southampton

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4 comments
Rocky Stefano
The beginning of "Data's" positronic brain...
Kpar
We are approaching a new paradigm. How long will it take to develop machines that read minds?

This is not idle speculation- trying to give mobility to paralysis victims is a wonderful goal... but.

What happens to personal privacy?

Careful what you wish for...
ljaques
Um, SkyNet, is that you?
John
Of course this will be powerful for those of us who've 'lost' brain cells due to stroke or injury, or others with Parkinson's or other degenerative disease. Let me know of jobs in this area. Regarding cyborgs and The Terminator, we'll keep that to SciFi authors, but this is real.