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Maybe quite soon we can transfer memories between people.

  Maybe quite soon we can transfer memories between people. 


Cloned neurons that involve certain information can be used to transport skills and memories between people. In those visions the needed information is stored in cloned neurons. And then those cells will transfer to the person's neural network. 

We have one morphing neural network that gives inspiration for computer-based networks. That morphing neural network is our nervous system. The lab-grown cloned neurons were injected into a Parkinson's patient's brain. The problem with cloned or lab-grown neurons is that they are so-called "empty neurons". 

Those cloned neurons have no memories or skills that they use in their brains. But the BCI (Brain Computer Interface)--based technology makes it possible for the system to see those cloned neurons before they are injected into brain tissue. The system can use Cloned neurons to make hybrid microchips where living neurons and silicon-based systems exchange information.      

Lab-grown neurons are promising tools for Parkinson's. But the lab-grown neurons are the tools that can do much more than just give treatment for Parkinson's patients. The lag-grown neurons can also be used to fix brain damage that accidents cause. In some visions, the lab-grown neurons will trained by stressing them with electromagnetic impulses. 



Term trained neuron means neuron where the system transfers information that it needs for its mission. The thing that causes problems in brain damage treatment is that memories, including skills stored in neurons To fix brain damage the neuron must have the same skills. That the destroyed neuron had. 

Skills are memories that are stored in neurons and are unique. And without those things, the brain damage is hard or almost impossible to fix. Even if the system transfers cloned neurons in some brain areas, those empty neurons require skills. That they can do their mission.

The same technology that was created for control BCI (Brain Computer Interface) can used to transport information into brain cells that are grown in the laboratory. That allows the transfer of new skills and other things into people's brains. The trained neurons are things that make computers and robots more independent. 

The lab-grown neurons can change to create microchips with an organic layer. 


Those hybrid microchips can communicate with living neurons, and those systems will make at least small-size robots very independent. The problem with small human-shaped robots is that they have no space for supercomputers or high-power computers that can run complex AI-based applications. 

The living neurons that control that robot's operating system make it possible. That small robot can operate independently. Otherwise, those systems require high-speed WLAN connection for swarming and communicating with central computers. 


https://www.freethink.com/health/dopamine-neurons

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