Unlike researchers previously thought, new research links brainwaves straight with memory.
The new observation that memory is directly connected with brainwaves opens new visions for medical treatment that is used to fix brain damage. When we are losing some neurons, the thing that we lose is the memory stored in those cells. All our skills and abilities are stored in memory. And the observation that the brainwaves interact with memory opens a new path to neural research.
It's quite easy to transfer the brainwaves between people. The only thing that we must do is store the EEG in some file or C-cassette. Then that file can driven to the cerebral cortex using the electric shock system, which transmits that signal into brain cells. It's possible to store a person's brainwaves in computer hard disks. And then transmit them over generations.
EEG signals travel in the synapses. They are like small electric wires in the human brain. The radio transmitter that can affect magnesite can make it possible to send radio signals straight into the human brain. That system can used to download data straight into the nervous system.
"Neurons produce rhythmic patterns of electrical activity or oscillations in the brain, driven primarily by memory, according to a recent study. Contrary to previous beliefs, the research showed that these theta oscillations in the hippocampus were more prevalent when individuals were remembering events than experiencing them, highlighting memory as a key driver in theta activity and offering potential pathways for treating brain damage and cognitive impairments." (ScitechDaily.com/Contrary to Previous Belief – New Study Links Brain Waves Directly to Memory)
When we are talking about things like skills, we talk about memories. When we learn something, we make memories, which involve data about movements and other kinds of things. If we want to create the BCI (Brain Computer Interface), we must allow computers to communicate with brain cells without limits.
The need to program neurons doesn't necessarily mean the ability to program human brains. The other thing that we might want to program is the "mini-brains". The mini-brains are neuron groups that are created from cloned neurons. Those neuron groups can used to communicate with microchips.
And that makes it possible to create microchips. They have many more abilities than normal, non-organic microchips. The hybrid microchips that use insect neurons and nano-size silicon microchips can act as brains for nanomachines.
When we think about things like OBE (Out-Of-Body Experiences), some electromagnetic waves like radio waves may travel through the animal's or human brain. And if those radio impulses resonate with the axons that carry EEG- or brain waves that can make it possible to transmit thoughts.
The connection between brainwaves or neural electric functions with memory opens new visions for creating things like brain-computer interfaces, restoring brain damage, and teaching new skills to people. Researchers can use that information to program cloned neurons. That researchers created in laboratories. The synthetic brain waves can driven to those cells that can control the bionic microchips.
The bionic microchips are hybrid. That is connected with non-organic microchips. That non-organic microchip acts as an interface between robots and living neurons. That kind of system can transmit information in cloned neurons that are used to replace brain damage.
https://scitechdaily.com/contrary-to-previous-belief-new-study-links-brain-waves-directly-to-memory/
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