• Evil_Shrubbery@lemm.ee
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    1 year ago

    Next gen slaves are gonna be so advanced. Sure hope no one figures out a cheap way to use naturally grown brains for computing and data mining (under a capitalist system).

  • Morsil@lemmy.eco.br
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    1 year ago

    Maybe I misunderstood but it seems they just used the brain cells as a microphone and the voice recognition was done by a machine learning algorithm?

    • webghost0101@sopuli.xyz
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      1 year ago

      This needs more tests. It looks like current results are the combination of how braincells naturally filter the experience if sound and ai on top of that.

      It looks like the brain actually does recognize voices as different but we need an ai to read this from the brain. I am curious how much better this performs then just pure ai.

      Id alo like to know how the brain got exposed to sound cause irl an organic microphone is an ear, is it a brain with ears?

      Even if not better then just ai voice recognition. Sending experiences trough neural matter and using ai to analyze the way it responds will learn us a lot about how the brain actually works.

      • HumanPenguin@feddit.uk
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        1 year ago

        Your last para is likely the important one. Rather then this being some idea to make things more efficient. It was likely done purely to see how human brain cells function. This may long term lead to more effective solutions by mimicking the ideas learned. But ATM we really still do not know how much we don’t know about the human brain.

  • AutoTL;DR@lemmings.worldB
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    1 year ago

    🤖 I’m a bot that provides automatic summaries for articles:

    Click here to see the summary

    Researchers have created a “biocomputer” made up of lab-grown human brain tissue and electronic circuits that they say can perform tasks including voice recognition.

    The idea is to build a “bridge between AI and organoids,” as coauthor and University of Indiana bioengineer Feng Guo told Nature, and leverage the efficiency and speed at which the human brain can process information.

    Ultimately, the hope is to have brain-inspired biological computers perform tasks on behalf of conventional AI — while also providing scientists with an exciting new way to study the human brain.

    Once the AI was trained on these responses, the researchers found that Brainowave was able to pinpoint the original speaker 78 percent of the time.

    According to Nature, researchers are also excited to discover new ways to study the human brain, as well as as well as neurological disorders like Alzheimer’s, by replicating its architecture in a lab setting.

    However, scaling up their mini-brains to ones large enough to complete more complex tasks will likely prove difficult, as cultivating the cells is an expensive and laborious process.


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