Brain-Like Computing: Artificial Brain Development using a combination of salt and water

What is an artificial brain or man made brain?

An artificial brain, frequently acknowledged as a man made brain, is a technology that copies the cognitive abilities of the human brain. Artificial intelligence brains serve three critical roles in science: cognitive neuroscience, a thought experiment in artificial intelligence philosophy, and a long-term goal to build robots that behave like humans. The combination of the human brain and artificial intelligence’s goal is to develop powerful AI that can imitate the complicated central nervous systems of animals and humans.

How Artificial Brain Development using a combination of salt and water created brain like computing

Scientists at Utrecht University and Sogang University made artificial brain cells out of a basic mixture of water and salt, matching the natural elements of human brains. Synapses, or artificial neurological connections, have the potential to change the creation of powerful computers. The study, published in the Proceedings of the National Academy of Sciences, describes an innovative kind of device called an Iontronic Memristor, which is created by Artificial Brain Development using a combination of salt and water and also recalls prior electrical charges.

Iontronic Memristor

When the device gets an electrical impulse, ions begin to migrate along the channel, altering the nearby ion environment. It develops neuronal connections, just like human brains. If an impulse is unusually powerful or lengthy, the channel’s conductivity changes equally. Kamsma also mentioned that the length of the channel is an important factor in making changes. According to Kamsma, this suggests that Iontronic Memristors might be programmed to recall prior electrical charges, similar to the synaptic pathways found in the human brain.

Capability for personalization and scalability

• The duration of the channel influences the memory retention time of the memristor, implying that channels might be adjusted for certain activities, analogous to the brain.
• The new design is reasonably quick and inexpensive to construct, making it scalable for a variety of potential uses.

Integrating Theoretical and Experimental Physics

• The work demonstrates how theoretical and experimental physics may be merged to make new scientific discoveries.
• The researchers experienced a “wow” moment when they moved from theoretical hypotheses to tangible real-world effects.

Artificial intelligence based on human brain

Unlike traditional computer systems, which rely on solid materials, these artificial brain cells work in the same way as the human brain, possibly, the brain is like a computer that may mimic human brain communication patterns.

The potential of the artificial human brain

Kamsma points out the quick development of iontronic neuromorphic computing, which he sees as a significant advancement. He believes that this progress will lead to computers that can duplicate the communication patterns of the human brain while using the same media, potentially opening the way for the capabilities of the artificial human brain. Yet, the future of this technology is still unknown, and its practical use is unsure.

Conclusion

The Memristor, which is created by Artificial Brain Development using a combination of salt and water, has the potential to revolutionize computing. This convergence of theoretical and experimental physics is a big step toward AI that mimics human brain communication, yet its practical uses are disputed.