On August 25, Zhou Yu received a message from Professor Zhao Zhao that he had solved the problem of mutual interference between devices and could conduct a neutrino communication ground networking test.

Zhou Yu immediately rushed to the scientific research center, and when he first came to the gate of the Institute of Electromagnetism, he happened to see Ma Shangshu and Feng Yunde holding hands and laughing, muttering something from time to time?

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

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

This just solves my long-standing troubles, and we are studying the application of this material in the field of superconductivity in depth, and then report to Mr. Zhou in detail after I succeed. ”

Zhou Yu was ready to learn about neutrino communication, and knew that the project was in the process of development, so he did not have a detailed understanding.

"Don't be in too much of a hurry, slowly study this material, neutrino communication has been successfully studied, I'll go over and see the effect."

Zhou Yu crossed 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 mastered by Xinghuo Technology.

If neutrino communication can really be successfully networked, it will bring huge reputation and benefits to Xinghuo Technology.

At the same time, two real technologies will be unlocked, the smart car driverless function and the VR smart operating room.

Both of these functions require a low-latency network to unleash the powerful computing power of AI.

Zhou Yu walked into the neutrino laboratory and saw Zhao Zhao debugging neutrino communication equipment.

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

"The neutrino communication base station is so big, I don't know if the airship can withstand it, and our airship research and development task was picked up by several scientific research assistants who are ready to sprint researchers.

An airship that can fly to the near space does not need to master new technologies at all, as long as the existing technology is perfectly brought into play, it should be able to carry such a large base station. ”

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

Zhao Zhao pointed to the big round ball with a diameter of 3 meters, and said excitedly: "The 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 combination of energy and efficiency, and the best equipment is made on the existing basis.

In order to be able to test one component repeatedly, our laboratory made each component very large, and the neutrino communication base station was also required to be easily disassembled.

This belongs to the experimental verification machine, it is normal to be larger, and the real industrial-grade neutrino communication base station will not be so large. ”

"How are you ready, 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, and soon we will officially start the ground networking test."

After Zhao Zhao finished speaking, he instructed the researchers to continue to test the relevant equipment of the neutrino communication base station, find possible hidden dangers in advance, and only after 100% no problem can the ground main network test begin.

He gave Zhou Yu a brief explanation of the operation of the neutrino communication base station.

Zhao Zhao showed him a device the size of a small yellow rice grain.

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

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

We have a basic agreement with the state, and we are responsible for the formation and maintenance of the neutrino communication network. The tower company, which is equivalent to the high-end version, is not allowed to operate the neutrino communication network externally.

The three major operators lease our neutrino communication network to provide neutrino communication services.

Our neutrino communications allow for an extremely dense number of communication requests, with up to 10 billion communication connection requests in a cubic meter, covering tens of thousands of square kilometers.

Even if you fill a cubic meter of neutrino receivers, it is just over 1 billion, and it already leaves enough room for subsequent upgrades. ”

Zhou Yu heard Zhao Zhao's introduction, and he was very satisfied with the neutrino communication performance.

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

The device only needs to have a neutrino communication receiver to have networking capabilities, which is also the best way to cope with the intelligent era.

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

The existence of SIM cards has greatly increased the cost of users to change operators, even if it is no longer suitable for the times, operators must maintain its existence.

Zhao Zhao took out another device the size of a rice grain, and he said with emotion: "Don't look at this device as small, but it is the device with the highest neutrino communication technology."

It's the user-side neutrino modulator, and it doesn't have the ability to capture neutrinos in the universe on its own.

It must borrow neutrinos received by the neutrino receiver. The signal is then remodulated by the device and transmitted back to the neutrino communication base station.

It is for this reason that the neutrino signal from the base station is more complex, and the neutrino signal returned by the user is simpler.

If the signal has been transmitted by the user, the base station must send some blank signal with no content to the user before it can send the signal back.

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

Zhou Yu understands the reason why Zhao Zhao handled it this way, if you want to capture neutrinos in the universe, the device needs a huge amount of energy, but if the existing neutrinos are debugged, there is no longer a huge energy supply.

This method is already an extremely ingenious way to guarantee normal neutrino communication.

The researcher immediately reported: "The neutrino communication base station has been debugged and can be tested for ground networking."

Zhao Zhao immediately nodded and said, "Then start the neutrino communication ground networking test."

He immediately started the neutrino communication base station, and the neutrino capture modulator, which was supposed to be running on standby, immediately became operational.

It begins to capture neutrinos transmitted by the Sun in Earth's space, and modulates them into signals that the device can recognize, which is transmitted to the neutrino receiver.

After the receiver parses the neutrino signal, it immediately transfers the neutrino to the modulator, remodulates the signal and sends it back to the base station, and the entire neutrino communication completes the closed feedback.

The base station's master control center immediately displays hundreds of thousands of small light spots, each of which represents a device connected to the base station.

Some of them are particularly dense, and some are moving at high speed.

Zhao Zhao said: "Due to the influence of the curvature of the earth, the ground networking test can only be carried out nearby.

We have very dense mechanical spheres at the Institute of Force and Mechanics, and the operation of these spheres is controlled by neutrino communication.

Verify the stability of neutrino communication in dense situations.

In various parts of Xiong'an New Area, there are also drones and toy cars, which are used to command their operation through neutrino communication, verifying the performance of neutrino communication in directing high-speed objects. ”

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