Its advanced technology for communicating without intermediaries between the human brain and the car. This technology, which does not look like science fiction movies, sends brain data straight to a gadget with the help of a surgeon’s robot, advanced electrode and chipsets.

The company, under the supervision of Elon Mask, has held an event in San Francisco to provide information on project developments. During the incident, the company’s officials announced the development of a robust and precise robot that could plant human-induced sensor arrays.

The mask is in direct connection with artificial intelligence
The company’s current goal is to develop a system for helping handicapped people with disabilities, but will ultimately be used to communicate quickly and without intermediary with artificial intelligence.

In Neralink technology, extraction of brain data is done by very narrow, yet efficient, strands. The diameter of these strands is about a quarter of human hair and planted in the brain to avoid collisions with blood vessels through a robot.

The main advantage of these disciplines is the flexibility that prevents damage to the cerebral cortex. Another important feature is the ability to transfer a large amount of data through 3072 distributed electrodes in 96 fields.

In Neralink technology, extraction of brain data is done by very narrow, yet efficient, strands. The diameter of these strands is about a quarter of human hair and planted in the brain to avoid collisions with blood vessels through a robot.

The main advantage of these disciplines is the flexibility that prevents damage to the cerebral cortex. Another important feature is the ability to transfer a large amount of data through 3072 distributed electrodes in 96 fields.
Neralink technology

Transmission of large volumes of data means that in a given time frame, we can transfer much more data than we talk or type to. Sensors within these disciplines receive information and send the brain to the upper chip.

This custom chip designed by Noralink is superior in reading, refining, and amplifying brain signals than similar ones. Currently, the only data extraction method is limited to the USB-C port, but the ultimate goal is to wirelessly build this chip.

The chip that Neuraleinc ultimately intends to develop is called the N1 sensor, and it probably reads less neurons than USB-based prototypes. The company intends to implement four N1 sensors in the body, with three units in the engine area and one in the Sumatomotive cortex.

Sumatossensory is part of the brain that controls the movement of the body in space and skin sensations such as pressure, vibration and touch in the form of a complex system of neurons. The system includes sensory receptors and neurons in the skin, muscles, and organs, and some research has also pointed to its important role in learning and memory.

This chip is wirelessly communicating with the device installed behind the ear. The device itself will be controlled through an iOS app.

Another important achievement of the Robot Mask company is to automatically plant strings in the brain. Due to the flexibility of the fields, their planting in the brain is not easy, and this is why it has been delivered to the robot. This machine employs six strings (192 electrodes) per minute in the brain. The process now requires a skull drill, but researchers are seeking to use lasers to avoid unpleasant vibrations.

In the illustrated image, there is a structural robot between the sewing machine and the microscope. The precision of the instrument is such that it minimizes the risk of inflammatory response by the body by avoiding collisions with blood vessels. Using this tool, researchers have planted 1500 electrodes in the brain of experimental mice, but have not yet been tested on humans.

One of the most important points in the event is the company’s plans to begin trials on humans from next spring. This part of the project is scheduled to take place at Stanford University and in collaboration with neuroscientists.

If this is practical for humans, Neralink technology will be used primarily to help people who have been impaired or lost skills such as talking. Mask invited the experts to work with Noralink:

We are not supposed to take control of these brains at once with these disciplines. Our goal is ultimately synonymous with artificial intelligence.

That was the only way to keep pace with the advances in AIs connecting the brain and the computer, so helping these people is just the start of a marvelous project.

Nurlink is seeking to reduce the sensitivities surrounding this technology to a point where, like the LASIK procedure, it is completely unnecessary for the general anesthesia of the patient. However, as Dr. Matthew McDougall, a senior surgeon at the company, says the whole process should receive approval from the US Food and Drug Administration, a process that will not be easy.