The Technology Tree of Xueba

After Xinghuo Technology built the nuclear power plant, new materials were provided to the project team, prompting them to develop new technologies.

In the Neutrino Communication Lab, Zhao Zhao looked at the materials sent from the nuclear power plant.

He commanded: "Now it's time to start processing neutrino capture modulators with new materials."

Researchers began to look at the drawings. The processed neutrino capture modulator was only the size of a soybean, and it was too far away from a large ball with a diameter of 5 meters.

The laboratory researcher asked Zhao Zhao worriedly: "Director Zhao, I understand that the company now makes a material called high density material.

Will this material be a high-density material? If it is a high-density material, it should be able to compress several tons of equipment to the size of soybeans.

But its quality has not changed. If it is really made of high-density materials, this kind of device will not be able to be used by individuals.

It still cannot be promoted quickly, and it has basically no effect on the development of the current neutrino communication network. "

Zhao Zhao nodded with a smile: "You are right, if it is a high-density material, it really cannot be applied to our technology.

However, this material is not a high-density material. It is a new material developed by the degenerate laboratory. It is not large in volume and mass. It only uses the nuclear force generated by the material to restrain the neutrinos everywhere in space. "

The researchers at the Neutrino Laboratory were also shocked. They could not imagine that the technology could be so large.

The very large neutrino capture debugger is made so small.

This is not a compressed volume of several times or dozens of times, but a compression of the neutrino capture modulator by tens of thousands of times.

This is the promotion of existing technologies after breakthroughs in high-end materials and theoretical technologies.

Neutrino capture debugger, which used to rely on the strong weak interaction of particles to capture neutrinos.

Now that the four basic forces are unified into a nuclear force, it is entirely possible to capture neutrinos by means of nuclear force. It becomes more efficient and consumes less energy.

Researchers quickly asked the intelligent industrial robot to process a soybean-sized neutrino capture modulator and install it in the newly designed star glasses.

After Zhao Zhao used it, he said with emotion: "This is the real neutrino communication hardware. Now we can finally improve the neutrino communication coding so that it can pass complex information faster and more accurately.

Smart devices are connected to neutrino communication satellites, which can efficiently transmit data.

Without a neutrino communication satellite, a smart device can capture and modulate a small number of neutrinos by itself, and it can also pass emergency information to the surroundings.

Neutrino communication only needs to leave the communication satellite in the sky, and no longer needs the information processing on the ground server.

As long as the power is sufficient, any intelligent device can be transformed into a small base station of a neutrino communication network. "

After the success of this technology, Zhao Zhao immediately applied it to neutrino communication satellites. The compact neutrino capture modulator can make neutrino communication satellites smaller, carry more energy, and develop some important Accessibility.

The neutrino laboratory is hurrying to test the satellites. They need to make the neutrino communication satellites ready before the mass projector is put into use.

In the Human-Computer Intelligent Interaction Lab, Lu Qinling, the lab director, is looking at a new material, which is high-density potassium chloride.

The materials entrusted to him by Feng Yunde, director of the Materials Research Institute, stated that this material can convert electrical signals into bioelectrical signals for rapid neural recognition.

It can also quickly convert bioelectrical signals from nerve endings into normal electrical signals.

Lu Qinling quickly instructed researchers to study this high-density potassium chloride material.

Feng Yunde's experiment with ear bones, he believes that the ear is closer to the brain, the pain nerve is not dense, and there is a sensitive nervous system.

Lü Qinling is thinking more and needs to fully verify the performance of this material.

He didn't just do experiments on the ear bones. He started experimenting on nerve-sensitive parts of the body such as the forehead, cervical spine, arms, orbits.

Initially, experiments were conducted with animals, and after ensuring the safety of the experiments, volunteers were recruited for human experiments.

Artificial organs made in genetic laboratories can ensure the safety of volunteers' lives, but the process of the experiment is a bit painful.

After careful experiments, Lu Qinling learned the characteristics of high-density potassium chloride.

This material does transform bioelectrical signals, so long as it plugs into nerve endings, it can work.

The nerve endings must be directly connected to the brain. If it is transferred through the spine, the properties of this material will hardly work.

This also requires that it be placed on the head. It is still the most convenient for cartilage of ears to integrate all parts of the head.

Lu Qinling has developed a bioelectrical signal transmission device, which is shaped like an earring.

The device penetrates the ear bone directly, and the high-density potassium chloride material inside it is automatically connected to the nerve endings under the control of the smart device.

The potassium chloride material is only 50 microns thick and three millimeters long, and the total mass of the device is only 100 grams. Most of the other modules of the device are power supply and communication modules.

Lu Qinling buckled a stud-type bioelectric signal transmission device and tried to operate an intelligent robot.

He closed his eyes and concentrated, giving the robot instructions to move forward.

As a result, the intelligent robot remained motionless and did not execute the instructions issued by Lu Qinling at all.

The researcher nearby has been observing the data. It saw a garbled output from the device, and asked in amazement: "Director Lu, what is going on? Other people's simple commands can recognize it. When you give the order, the device cannot recognize it.

Is there a problem with the bioelectrical signaling device?

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Lu Qinling waved his hand and said, "The device has no problems. It still converts the bioelectrical signals transmitted by the nerves into electrical signals that can be recognized by the equipment.

The reason why the intelligent robot that issued the order fails to recognize it is that my brain has not yet established a new neural channel, and it is unable to transmit accurate commands through the device. "

The brain and bioelectrical signalling devices establish new neural channels. This is not to build a new neural network from scratch.

Instead, the original neural network is used to transmit complex signals.

Human tissues and organs are highly adaptable to the environment.

After a person's blood vessel is blocked, several branches will grow from the side and directly connect to the blood vessel in front.

The blood vessels look like this, the more complicated the brain nerves, the stronger the adaptability.

The neural network of the brain is completely retired.

A person with damaged arm muscles doesn't use their hands until the injury is good.

Even if you use the advanced technology of Spark Technology to cure your hand and not use it for a long time, you need complex rehabilitation training to restore the function of your arm.

A person who has been blind for a long time must have a more sensitive ear than a normal person. This is the reason for using retreat.

The neural channel is still the original nerve near the ear bones, but it used to transmit and receive very simple signals.

The received bioelectrical signals are very complicated. The brain has not adapted to this neural channel, and even if it actively issues a command, it will not transmit signals through this neural channel.

It is for these combined reasons that everyone adapts to this technology at different times.

After several experiments, Lu Qinling can make the intelligent robot start to move forward.

Formally developed advanced human-computer intelligent interaction technology, which can transmit commands of the human brain to smart devices in real time.