Vol 3 Chapter 2150: Re-engraving the cool technology in the movie


"In fact, most of the time we spent on this project in the past few years was researching this technology.
To be honest, it is really difficult. We have studied dozens of technologies, but all of them have failed. In reality, it is really difficult to balance both at the same time.
And just when our research has reached the extreme, there is no way to continue. One of our researchers suddenly had an idea and came up with a new idea.
Why do we have to replicate the technology in the movie, since we already know how it works, why can't we redesign a tiny nanorobot? "
Design your own? Zhang Jun wondered.
Zhou Yonghui nodded and replied: "Yes, design it yourself. Use our existing technology and the technology we can overcome to make a new intelligent micro-robot.
First of all, we redesigned its shape and size. It is too small in the movie, its ability to play is limited, and it is not easy to design and develop. So we enlarge its shape volume. The redesigned volume profile is roughly the size of our index and middle fingers.
In addition, we abandoned the original three-body separation structure, but directly designed the three-body separation structure of the micro-nano robots in the movie into a connected whole.
The redesigned intelligent micro-robot is also divided into three parts, two mechanical arms on both sides, about two to three centimeters, and a universal drive joint in the middle.
This universal drive joint can flexibly rotate, bend, turn, etc. It is very flexible, has a reliable structure, and has considerable strength.
In the short robotic arms on both sides, there are many parts such as intelligent control system, signal transmission system, power supply system and so on. To guarantee its powerful battery life, we have equipped it with our most advanced super solid-state battery.
With the support of super solid-state batteries, its single intelligent micro-robot can work for two weeks on standby. If it is a high-intensity operation in a cluster joint state, it can also continue to run for six or seven hours.
There is a caliper connection device on the two sections of the two robotic arms. After encountering other intelligent micro-robots, it will automatically connect together according to the system control requirements and form a multi-joint structure robot. And multiple groups, a plurality of such intelligent micro-robots are arranged and combined in an orderly manner, forming the large-scale intelligent micro-robot cluster combination form in the movie.
After solving the technical bottleneck of a single intelligent micro-robot, we still need to solve another problem, and it should even be said that it is our specialty, which is the cluster array control technology.
This should be said to be our housekeeping ability, but we didn't expect that this time, the car would overturn with our strongest technology.
Our cluster array control technology is to connect multiple units through a set of decentralized cluster control technology, and then realize organic connection, and connect all individual systems together to form a decentralized huge system.
This huge system can control the entire cluster uniformly, and can be precise to the individual. Even if some of them are lost, the entire cluster will not collapse, and the command will weaken its system computing performance.
In theory, there should be no limit to the number of this decentralized cluster array control technology. In reality, we have also realized the limit experiment of tens of thousands of UAVs flying together, and achieved very ideal experimental results.
However, in the form of this intelligent micro-robot and the cluster array formed by it, it has encountered very difficult problems.
First of all, the number is naturally small. Although we have experimented with the combined flight of tens of thousands of UAV swarm arrays, problems have arisen when applying it.
And the number of intelligent micro-robots we want to control is far more than these tens of thousands. It is far more difficult to arrange so many intelligent micro-robots in an orderly combination according to our own intentions. Controlling tens of thousands of drones to fly is much harder.
To put it simply, these intelligent micro-robots can theoretically have countless types of permutations and combinations, so how do we achieve infinite changes in the combination of these intelligent micro-robots, which requires the use of artificial intelligence algorithms.
A single intelligent micro-robot is very small, and the hardware that can be accommodated in it is very limited. After it is equipped with an intelligent control system, the computing power is very limited. Even if they are arranged and combined together, its computing power cannot be very high.
For example, the computing power of a cluster array system composed of 10,000 intelligent micro-robots is not comparable to that of a 32-core computer.
With such limited computing power, it is very difficult and laborious to process such huge data operations. If the computing power is not enough and the calculation processing is not timely, the phenomenon of control freeze will occur. Maybe we issue an order here, it will take a few seconds or even ten seconds, and after a few minutes, the intelligent micro-robot over there will respond. , thus losing its original value.
Therefore, we need to improve the computing power of a single intelligent micro-robot and increase its data and information processing capability by dozens or even hundreds of times, so as to meet our requirements.
So ~EbookFREE.me~ we need to start from the low-level, such as the processor chip in the hardware, and we also need to design it in a targeted manner. The original single chip can no longer meet our needs, but if multiple processor chips are arranged, it will take up space. So we used a brand new chip manufacturing process, which is to stack multiple chips together to form a multi-layer chip structure, which we call a Rubik's Cube.
The computing power of this chip is hundreds of thousands of times that of the original chips. Of course, with such a large computing power, there will naturally be some drawbacks and problems. For example, its special structure will generate a lot of heat when it is fully loaded. This heat will directly affect the running computing performance of the chip, and even larger heat will even burn the chip.
Therefore, it needs to be cooled down when it is operating. But in such a small structure, how to cool such a chip and dissipate heat is also a headache for us.
In addition, a large number of intelligent micro-robots are arranged and combined together, and how to connect the systems of these intelligent micro-robots in an orderly manner is also a technical problem that we need to study.
It is obviously impossible to use the wireless connection technology of traditional drones. It can only be used as an auxiliary function, and the transmission speed is relatively slow, so there must be a new transmission method.
Therefore, we set up an interface at the position where the two sections of the intelligent micro-robot are connected to the caliper. When connecting, the data interface will also be connected at the same time, and data exchange and transmission are carried out through the line, thereby improving its data transmission operation efficiency and overall performance. "
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