Lan Nuo was the first to accept relevant human body modifications. He was the first to accept modifications at the genetic level, making certain adjustments to the characteristics of the human body's nerve cells so that after the nerve cells die, new cells can replace them.
Differentiation restores originally dead cells, and a new neural network can be built by repeating the above process again and again.
In this way, the neural network that originally did not change much after adulthood can become able to grow and transform a little bit through exercise, just like the rapid development of the brain during learning in early childhood and adolescence.
With this ability, after implanting foreign neural connection components, the human body can complete the connection with them through active exercise. And this kind of exercise is undoubtedly a huge test of willpower.
Lan Nuo lay on the operating table. From the back of his neck, needles were inserted into his spine one after another. Each needle was connected to this chip. And they were arranged to form a brand new artificial spine, like
It was a centipede lying on his back.
This kind of precise surgery can only be successfully performed by Lan Nuo himself. If it had been anyone else, the lower limbs might have been paralyzed after one operation.
After the operation, Lan Nuo got up from the operating table, felt his current physical condition, and then described it in detail to the recorder.
"I feel itchy on my spine now. It feels like there is something there that I can control and move, but it is difficult to control it accurately. This feeling is like the first time some people feel the pain near their ears.
Muscles, when I try to move my ears for the first time, even if my brain tries hard to think about it, my ears may not move. And sometimes, when I don’t think about it, my ears will beat unexpectedly.”
Lan Nuo, who was in charge of the operation, nodded: "If you feel this way, it means that the operation is basically successful. The transmission and processing of information by the human body cannot be separated from people and our thinking. The information we transmit to the outside must be accurate.
, if you vaguely think about it in your brain, the computer will be able to present what you imagined and complete all the details. That is not called human-computer interaction, that is artificial intelligence.
It's like many people always feel that they can imagine extremely complex pictures in their minds. They can imagine a beautiful painting, a three-dimensional and exquisite model, or even a sufficiently exquisite video.
But in fact, this is simply impossible to do, because when you carefully think about every detail of the image in the three-dimensional modeling you have constructed, you will find that you have never imagined it before.
What the details look like, imagine what the details there should look like from different angles, and if you personally use modeling software to model, you will more clearly realize the limitations of the human brain in terms of imagination.
When the outside world has sufficient technology, we rely on artificial intelligence to make up for this shortcoming. We rely on imagination to give information, and artificial intelligence helps me improve the details of this information, and then we correct the improved image.
, after repeating this several times, we can get the results we want.
The technology on our side is completely unable to support artificial intelligence on this scale, so during the input process of human-computer interaction, we cannot input vague conceptual signals, but must input precise information, just like
When our hands are typing on the keyboard, if we type A, S will never appear on the screen.
After carrying out our transformation, the first step to adapt is to accurately output signals to the outside world. Now on your spine, there are a total of 256 nodes that can output signals to the outside world. Each node can output two signals: yes or no.
The first thing you need to do next is to identify each external output signal node.
The second step is to learn to master the on and off of each signal node, and finally, through different switch combinations, output the signals you want little by little.
It's like every eight signal nodes can represent a byte. This may be difficult at first, but you can practice byte by byte. First, go through the eight nodes at the top of the spine to practice inputting each character.
Once you can use these eight nodes and become proficient in how to quickly input characters externally, it is equivalent to a person learning typing learning one-finger meditation. Even if it is just one-finger meditation, the efficiency of external output is already comparable to that of typing on a keyboard.
, because these eight bytes are equivalent to an entire keyboard.
After completing the learning of the first eight nodes, you will then complete the combination exercise of each eight nodes in turn. After completing the control of sixteen nodes, you can enter two characters at a time, and complete twenty
With four nodes, you can enter three characters at once.
There are a total of 256 nodes on your cervical spine. Once you have trained all these nodes and become proficient in typing, you will be able to input 32 characters at a time.
This kind of human-computer interaction efficiency is still much slower than what we have in other worlds, but the advantage lies in a solid foundation. All instructions output to the outside are not vague, but precise, and there will be no errors.
operational.
And compared to using the keyboard and mouse for input, this input method is still much more efficient, but mastering this input method also requires a lot of practice, which is more difficult than learning a keyboard and mouse, and is roughly as difficult as learning a new skill.
It is equivalent to, or even more difficult than, an unfamiliar language. It is roughly equivalent to the difficulty of learning Chinese for foreigners. After all, there are a total of 256 characters that need to be mastered, instead of 26 letters.
You can try it yourself. If you can master this human-computer interaction method in a short time through practice, then thinking expansion will be feasible."
All the current instructions are precise instructions, that is, instructions that must rely on one's own brain to calculate and output word for word. But after completing this step, the thinking can be handed over to the machine outside the brain.
With this kind of input ability, if you encounter a problem that requires calculation, you can input the problem into the computing device in a flash of thought, and after drawing a conclusion, you can also feed back the results in an instant.
The operation also transmits information through the nodes on the spine. You can control the nodes on the spine by opening and closing them. Naturally, you can feel the signals transmitted by the nodes on the spine, so that they can be transmitted to the spine.
The signal is translated into the result of the operation.
Even in theory, if you are proficient enough in related data processing, you can also transmit fuzzy image signals in this way. However, this is already a bit beyond the processing capabilities of the human brain. Apart from Lan Nuo, I am afraid that few people
Able to do this.
In order to make up for the shortcomings of large-volume information transmission such as image transmission, Lannuo also plans to further upgrade his own transformation and implant a biological screen on his eyeballs. In this way, overly complex image signals will
If it cannot be transmitted directly to the brain through the spine, it can be transmitted directly through nerves.
That is to say, the biological screen directly receives electrical signals and displays images in the form of pop-up windows in the field of view, which is equivalent to placing the computer screen directly within the field of view for control. In theory, you can take screenshots of what you see and then transmit them
To an external information storage device, it can be retrieved and viewed directly in the field of view when needed.
This can only be regarded as a more portable mobile terminal device. In fact, the efficiency of human-computer interaction is not substantially improved compared to mobile phones, but it is basically enough for this era.
It took Lan Nuo a day or so to become familiar with this entire system. After all, his mental structure is very different from ordinary people. He can learn this kind of thing that is difficult to learn and adapt to very quickly. According to their estimation, if
If you were an ordinary person, even if you obtain this kind of transformation through the transformation curse, it would take a year to adapt to and completely master this ability, even if you train diligently. But this is already a gratifying result.
.
The ability to output thirty-two characters at the same time is enough to complete the control of an extra pair of arms, even if you are skilled. After the new robotic arm is equipped with a force feedback system, the control in some aspects
The level of sophistication is even higher than that of a natural arm. More importantly, this arm can be directly interacted with human-computer. To give the simplest example, if you are doing repetitive work, after performing the correct operation once, save the relevant operation input.
, it can be entrusted to the system, and people can do other things while standing there, and the hands will move by themselves.
If it is something that needs to be fault-tolerant and requires some adaptability, you only need to keep an eye on it and proactively make fine adjustments when encountering problems.
With such arms, you can use the program to edit preset instructions in advance. If you use these arms to practice boxing, you don't need to practice the moves into muscle memory one by one like normal practice. Instead, you only need to punch correctly.
After doing it once, edit the relevant actions into moves and record them in the system. You can trigger them with one click when you need to use them in the future.
This is when the peripherals are just a pair of arms. With this level of human-computer interaction efficiency and the ability to output accurate instructions so efficiently, the peripherals added in the future can be fighter jets, spaceships, or even mechas.
Under a normal technology tree, it is difficult for a person to complete the input of more than ten commands at the same time with his or her own fingers, even if the toes are added, so it is basically unrealistic to rely on buttons to control a mecha.
The thing is, without any artificial intelligence-assisted calculations, it would be impossible for the mecha to maintain balance.
Therefore, even if you try to design a mecha, the operation method will most likely use motion capture.
But if you have the ability to input thirty-two characters at the same time, that is another matter. Thirty-two characters are equivalent to 256 switch instructions. If you practice well, you will not rely on any
With the assistance of artificial intelligence, it is possible to keep the mecha balanced by relying entirely on its own control of the machine. So many switch commands are enough to control every joint on the mecha. As long as coordination is achieved through practice, it will be like controlling your own body.
It becomes possible to control mechas in the same way. If there is a certain amount of artificial intelligence to assist, the learning cost can be further reduced.
If this phase can be realized in the future, the gap between ordinary people and extraordinary people will undoubtedly be further narrowed, even to the level of demigods. Most extraordinary people will be trained by well-trained machines.
The Armor Master wears a flexible and high-speed mecha to kill him from a distance.
It is unrealistic to produce mechas with the current industrial capacity, but according to this development trend, within five years, there is hope to see mechas born in this world.
When Xiao Ke woke up, the scenery of another world he saw probably made him suspect that he had arrived in the future world.
After this series of design and transformation exercises, the winter of 1347 was about to pass. Reinette Tinichole completed the absorption of the extraordinary characteristics of the gods, and was successfully promoted to become a sequence one angel. The originally chaotic Rose School
After reorganization, the temperance faction regained the upper hand.
Originally, even an angel like her would be proud of such great achievements, but after receiving the prayers from the Mo family, she still couldn't help but feel a little bit in her heart. There is no doubt that she will have to face a lot of study tasks this time when she goes to the Mo family.
, even if she could learn some of the most difficult knowledge through knowledge infusion, it still frightened her, an angel who had lived for thousands of years.
When Renette Tinichole saw the transformed Lanno, she was stunned. When she rushed to the scene, Lanno was testing a jet-powered suit. At the various joints of his body,
They are all equipped with small jet engines, connected through wires to the centipede-like metal objects on his spine. Then the power of these thrusters is constantly adjusted and changed under his control, allowing him to fly in the air like a ghost.
Fly freely in the body, and even your own arms and two extra hands can move freely during this process.
However, he quickly fell back to the ground while flying in mid-air. Although the operating system has been successfully adapted, allowing him to fly freely with these propellers, the size of the fuel tank limits him. Such a flight can last at most
Three minutes, and then completely out of gas, but this is still a huge advancement in technology.
The improvement in the efficiency of human-computer interaction will not only affect the interaction between humans and machines, but also the communication between humans. Imagine if everyone was equipped with this set of equipment, the communication between humans would be
Relying on the transmission of electrical signals to communicate directly through the signals on the spine, how efficient will it be?
