Chinese scientists develop brain-on chip organoid robot
Jul 17, 2024
24:43
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Chinese scientists Heyang and Yushun, along with Steve Hatherly, discuss the development of brain-on-chip organoid robots which can control robots using electrical signals. They explore the implications of merging minds with machines and the potential applications of neural implants for human enhancement.
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Quick takeaways
Brain-on-chip robots controlled by human brain organoids signal potential in hybrid intelligence.
Brain organoids derived from stem cells offer hope for medical treatments and brain repair.
Deep dives
Advancements in Brain-Computer Interfaces
Technology has advanced to the point where human trials have been linked to the development of robots with artificial brains, known as brain-computer interfaces. Scientists have successfully implanted artificial brains grown from human stem cells into robots for critical tasks such as obstacle avoidance, object tracking, and grasping. This breakthrough involves decoding the brain's thought processes into electrical signals to control machines, signalling potential advancements in hybrid intelligence and brain-like computing.
Medical Applications of Brain Organoids
The cultivation of brain organoids derived from human stem cells offers hope for future advancements in brain-related medical treatments. These organoids show potential for growing into real brains, potentially aiding paralysis patients in regaining mobility. Researchers aim to transplant brain organoids into living brains to repair damaged neurons and enhance brain functions, potentially restoring vision and improving neural conditions.
Ethical and Societal Implications of Neural Implants
The technology of brain-computer interfaces raises ethical concerns regarding individual rights and the potential societal divide between enhanced individuals and those without neural implants. While some view the technology as a means to enhance human potential, concerns exist about privacy, security, and potential exploitation. The medical and human potential aspects of neural implants require careful consideration to balance technological advancements with ethical responsibilities and societal values.
Ever wished you could download knowledge directly into your brain like Neo in The Matrix? Well, we might not be quite there yet, but we're getting closer! Today's technology allows us to control a computer with just our thoughts and even operate a robot with a lab-grown human brain. Heyang, Yushun & Steve Hatherly
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