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Biomechanic prostheses and brain control microchips are the new combination.



When we think about biomechanic prostheses there are two ways to control them. The easier way is to make a system that uses BlueTooth as the communication tool. In that case, the signals that are coming from brain-controlled BlueTooth devices normally remote control the prosthesis. And then another way to make the prosthesis is that the biomechanic system uses the impulses that come from the nerves of that wounded hand or leg. 



There are two main types of biomechanic or bionic prostheses. 


*The prosthesis is the external machine that connects to the user's body. The system can be a little bit like the HULC (The Human Universal Load Carrier) exoskeleton. And the Neuralink-type microchips can also control that kind of system. 


*Another version of that kind of system is the system that gives simulated neural impulses to the muscles. These systems are BCI-controlled electrodes that can give muscular stimulation from the outside. Those electrodes can be used by BlueTooth connection. 


The BlueTooth-based microelectronic systems can control things like mobile telephones or computers. And only the imagination is limited in those systems. The Bluetooth-based microchips can use to control jet fighters or computers that allow them to control things like drone swarms, and robots. Or any other devices through the internet. That kind of system can control things like robot assistants that are acting as external bodies for those operators. 

The communication between the device and the user can make by using external or synthetic reality. Or the system can use cortex stimulation that turns the external body into part of the nervous system. 




The "Neuralink" will revolutionize biomechanical prostheses. But it can also make many other things that have been impossible before into reality. The "Neuralink" is a surgically implanted microchip. That is Elon Musk-owned company. This kind of microchip can make it possible to control the biomechanic prosthesis. But the user of that kind of system can use things like mobile telephones by using this kind of microchip. The brain-implanted microchip can communicate with other devices by using BlueTooth communication. 

So "Neuralink" is one version of the BCI (BRain-Computer Interfaces). There is no limit to using that kind of microchip. The ability to connect things like computers and mobile telephones makes it possible. The Neuralink-system's users can connect their brains to the Internet whenever they want. 


https://bleex.me.berkeley.edu/project/hulc/


https://www.news.com.au/technology/innovation/inventions/elon-musk-says-neuralink-is-ready-for-use-in-humans/news-story/27846d5228410829acc356f66dbda3a7


https://scitechdaily.com/a-new-dawn-for-prosthetics-engineers-light-the-way-to-nerve-operated-prosthetics-of-the-future/


https://designandinnovationtales.blogspot.com/

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