The Technology Tree of Xueba

On August 25, Zhou Yu received information from Professor Zhao Zhao that he had solved the problem of mutual interference between equipment and could conduct ground networking tests for neutrino communication.

Zhou Yu immediately rushed to the scientific research center. When he arrived at the entrance of the Electromagnetic Research Institute, he happened to see Ma Shangshu and Feng Yunde holding hands and laughing, muttering from time to time.

He stepped forward and asked, What are you so happy about?

Ma Shangshu said happily: Da Dezi has developed a long-chain silicon-based material, which has very peculiar superconducting properties.

This just solves my long-standing troubles. We are in-depth research on the application of this material in the field of superconductivity. After I succeed, I will report to Mr. Zhou in detail.

Zhou Yu was going to learn about the neutrino communication situation. Knowing that the project was under development, he didn't have a detailed understanding.

Don't be too anxious, study this material slowly. The neutrino communication has been successfully studied. I will go to see the effect.

Zhou Yu passed them and walked directly to Zhao Zhao's laboratory.

Neutrino Communication Xinghuo Technology occupies more than 80% of the patents, and 100% of the core patents are controlled by Xinghuo Technology.

The neutrino communication can really succeed in networking, and it will bring huge reputation and benefits to Xinghuo Technology.

At the same time, it will also unlock two real technologies, smart car driverless function and VR smart operating room.

Both of these functions require a low-latency network in order to unleash the powerful computing power of artificial intelligence.

When Zhou Yu walked into the neutrino laboratory, he saw Zhao Zhao debugging neutrino communication equipment.

He immediately observed the neutrino communication base station. The entire base station occupies two houses of 500 square meters, which occupies a very large area.

The neutrino communication base station is so big, I don't know if the airship can bear it. Our airship research and development task was accepted by several scientific research assistants who were preparing to sprint to the researcher.

An airship that can fly to adjacent space does not need to master new technologies at all. As long as the existing technologies are fully utilized, they should be able to carry such a large base station.

Zhou Yu walked up to Zhao Zhao, looked at the huge neutrino communication base station and said.

Zhao Zhao pointed to the big ball with a diameter of 3 meters, and said excitedly: Other equipment of the base station can be integrated, and the volume of the base station can be reduced a lot, and it will never occupy such a large area.

This neutrino capture modulator is basically finalized, which is already a comprehensive energy and efficiency, and the best equipment is produced on the existing basis.

In order to be able to repeatedly test a component in our laboratory, each component is made very large, and the neutrino communication base station is also required for easy disassembly.

This is an experimental verification machine, and it is normal to be a little bigger. A real industrial-grade neutrino communication base station will not be so big.

How are you preparing? Are you ready to conduct the neutrino communication ground networking test? Zhou Yu asked Zhao Zhao.

We are preparing. We need to debug the equipment and charge the neutrino capture modulator. We will officially start the ground network test soon.

After Zhao Zhao finished speaking, he ordered the researchers to continue to test the related equipment of the neutrino communication base station, find out possible hidden dangers in advance, and start the ground main network test only after there is 100% no problem.

He briefly explained to Zhou Yu the operation of the neutrino communication base station.

Zhao Zhao showed a device the size of a small yellow rice grain in his hand.

This is the neutrino receiver, and it's less than a cubic millimeter in size.

The neutrino receiver also serves as the built-in ESIM card of the device, and the neutrino communication does not require the device to use an external SIM card.

Our basic agreement with the nation, we are responsible for forming and maintaining the neutrino communication network. It is equivalent to a high-end version of the tower company, which is not allowed to operate the neutrino communication network externally.

The three major operators lease our neutrino communication network and provide neutrino communication services to the outside world.

Our neutrino communication allows extremely dense communication requests, which can allow 10 billion communication connection requests within one cubic meter, and the coverage area can reach tens of thousands of square kilometers.

Even if one cubic meter of neutrino receivers is piled up, there are only more than 1 billion neutrino receivers, which has left enough space for subsequent upgrades.

After hearing Zhao Zhao's introduction, Zhou Yu was very satisfied with the performance of neutrino communication.

Ultra-high-density device requests are a must-have capability for the large-scale development of the Internet of Things in the intelligent age.

The device only needs to have a neutrino communication receiver to have the networking function, which is also the best way to deal with the intelligent age.

The SIM card is just a shield used by operators to protect their own interests and use the excuse of ensuring communication security.

The existence of the SIM card has greatly increased the cost for users to switch operators. Even if it is no longer suitable for the times, the operator must maintain its existence.

Zhao Zhao took out another device the size of a rice grain, and said with emotion: Although this device is small, it is the device with the highest neutrino communication technology.

It is the neutrino modulator at the user end, which does not have the ability to capture neutrinos in the universe by itself.

It has to borrow neutrinos picked up by neutrino receivers. After being re-modulated by the device, the signal is sent back to the neutrino communication base station.

It is for this reason that the neutrino signal sent by the base station is more complicated, and the neutrino signal returned by the user terminal is simpler.

If the user terminal has been transmitting the signal, the base station must send some blank signals without content to the user terminal before it can transmit the signal back.

It is limited by the energy supply of smart devices, and can only rely on this passive method to complete neutrino communication.

Zhou Yu understood Zhao Zhao's reason for doing this. To capture neutrinos in the universe, the equipment needs a huge amount of energy, but if you debug the existing neutrinos, you don't need a huge energy supply.

This method is already extremely ingenious and can guarantee normal neutrino communication.

The researcher immediately came to report: The neutrino communication base station has been debugged and can be used for ground networking tests.

Zhao Zhao immediately nodded and said: Then start the ground networking test of neutrino communication.

He immediately activated the neutrino communication base station, and the neutrino capture modulator, which was on standby, immediately started to operate.

It starts to capture the neutrinos passed by the sun in the space of the earth, and modulates the neutrinos into signals that the equipment can recognize, and transmits them to the neutrino receiver.

After the receiver analyzes the neutrino signal, it immediately transfers the neutrino to the modulator, re-modulates the signal and sends it back to the base station, and the entire neutrino communication completes closed feedback.

The main control center of the base station immediately displayed hundreds of thousands of small light spots, each of which represented a device connected to the base station.

Some of the light spots are particularly dense, and some light spots are moving at high speed.

Zhao Zhao introduced: Because of the influence of the curvature of the earth, ground networking tests can only be carried out nearby.

We have arranged very dense mechanical spheres in the Institute of Force and Mechanics, and control the operation of these spheres through neutrino communication.

Verifying the stability of neutrino communication under dense conditions.

There are also drones and toy cars in various parts of the Xiongan New Area, and they are commanded to operate through neutrino communication, verifying the performance of neutrino communication to command high-speed objects.