In front of Lan Nuo is a brand-new mecha with a height of about five meters. Although it has not yet been assembled with a shell, the circular machine looks a bit ferocious, but it is already quite impressive. The cockpit opens upward, and the driving method is
It's still mental control and motion capture that work together, but with the addition of a chip and auxiliary computing, the operation is more flexible.
It also requires a series of tests, tests, learning, the time required to control this technique, and the extent to which it can be controlled after the learning is completed.
In fact, people had already tested it before Lan Nuo came, but most of the people they tested were people who had already tried to pilot mechas. It was the first time for people who were not involved in the design of this mecha to test it.
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Lan Nuo was indeed not involved in the design of this mecha. During this period, he was busy working on the chip. There was only this posture auxiliary control system, which was the operating system he helped build. The subsequent testing and debugging were not done by anyone.
He completed it.
The fact that the local scientists in this world can rely on their own strength to produce mechas of this level can be regarded as a sign that they have mastered a new scientific research model.
After Lan Nuo boarded this mecha, his first feeling was that it was close to his body. The comfort of driving itself is also one of the important requirements for the performance of the mecha. If the driver himself feels very uncomfortable, then during the battle,
Chuuya will definitely be affected. For example, if the shoes are one size smaller than normal shoes, he will not be able to fight normally. This set of mecha is not specially designed for him, but it feels very special when he wears it.
When he got close to the body and entered the armor, he paid attention. Only then did he realize that the internal cockpit of this mecha could be adjusted.
There are a large number of knobs that can adjust the position of each sensor inside the cockpit, so as long as a new driver enters, as long as it has its relevant physical parameters, it can be manually adjusted according to the physical parameters, and the internal driving of this mecha
The shape of the cabin can completely match the shape of the driver.
This design is actually very critical. It is one of the necessary designs for the mass production of mechas. Without this design, the mass-produced mechas will be divided into different models. There will always be some models that will make people unable to
Adaptation, that is, the mecha is choosing the pilot, not the person who is choosing the mecha.
Another point is that the driver's own body shape is not constant. For example, if a child drives a mecha, as he grows taller, the mecha that originally fit him will no longer fit him so well.
It is even very possible that there are drivers who have successfully lost weight or gained weight in middle age. This is all possible, but when they were driving, they finally bought a mecha and took it home, but they were unable to drive it because of changes in their body shape.
, then the moth will be really big.
In addition, Lan Nuo also noticed that there were a large number of values on the operating system panel of this mecha, and there was a display similar to a health bar to intuitively display the status of his body.
This is very convenient for people who are driving a mecha for the first time. Not everyone can judge the damage of the mecha by the performance changes when controlling the mecha. An intuitively visible health bar can make people understand.
Do you want to act recklessly next so that others will know when to run away?
After entering the mecha, the upper cover will fall down. At present, the upper cover is still hollow. You can directly see the driver's body from the cover, but this is only a prototype. This shelf is also to a certain extent. In order to reduce weight, it is placed on
In the real finished product, this bracket will be covered with armor, and even for some special models, the shell of these armors will consider its sealing. Special types of mechas will consider the possibility of fighting underwater, so
Sealing must also be considered.
There is no need to do this when testing the prototype. It just does not cover the outer casing, and you can clearly see the operation of various internal parts.
"Try walking. There is no need to consider factors such as instructions. What we want to test is whether people who come into contact with this mecha for the first time can drive it smoothly.
Sometimes on the battlefield we may pilot the mechas of our fallen comrades, and some people who have never been exposed to mechas may become temporary mecha pilots."
Lan Nuo nodded, and then controlled the prototype to move forward. As he took steps, he found that this mecha was much easier to control than he had imagined. During his control, the mecha
Without any inconvenience or knowledge of any related skills, just relying on the body's instinct, this mecha can make almost all movements according to its own body movements.
At least there is no problem with walking. And even when running, he is very coordinated and will not fall down suddenly.
"Now it's time to jump over the obstacles. There's a series of obstacles in front of you. You need to jump or go around them. Try to do it as fast as you can.
Use any action you can imagine, cross these obstacles, test the performance of the mecha, and also test the blind spots of some actions. This mecha has some actions that it cannot perform, which requires a series of tests."
Lan Nuo entered the test field without hesitation, and something like a hurdle rose up in the test field. You can try to cross these obstacles from above, or you can try to get through from below. Of course, it is also possible in theory.
If you go around from the side, it will take longer.
Lan Nuo first tried jumping. Although the mecha was huge in size and weight, there was absolutely no problem in jumping. It could easily jump to a height of three or four meters. This was even stronger than the jumping ability of ordinary people.
It is stronger and is close to the jumping ability of ordinary soul masters. Although it is much lower than that of high-level soul masters, the mecha does not have full power output. If it has full power output, the jumping height should be higher.
But that's not necessary. Jumping so high will expose flaws.
During such a jump, there must be other posture auxiliary equipment to control it.
The duration of a jump is calculated according to the acceleration of gravity, not proportionally. Therefore, if an ordinary person falls from a height of his own height and a mecha falls from a height of his own height, the time it takes is completely different.
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It doesn't seem that difficult to cross these obstacles. The mecha jumped very high for the first two obstacles, for fear that it would not be able to cross them. The latter ones did not jump that high. After trying a few times, the mecha almost jumped
Cross these obstacles and there is no difficulty in controlling it with such precision.
After getting familiar with jumping, he was going to try to pass under these obstacles. So he tried to make the mecha squat. He originally thought that if he squatted and walked over with small steps, it would take too long. So he chose to use
The posture of kneeling on the ground is like the posture of a player celebrating victory on the football field, sliding forward and crossing.
When he assumed this pose, he discovered that the wheels could be ejected from the toes and knees of the mecha. As he assumed this action, while his body leaned back, the two wheels were in direct contact with the ground.
It's balanced and maintains its speed without slowing down.
Although this is a function that normal humans do not have, there is no obstacle to control. The control is very consistent with human intuition. He just maintains the posture of his upper body leaning back. The latter adjusts his center of gravity and the direction of advancement. From one to another
It passed under an obstacle but did not hit the borders on both sides of the obstacle.
And he discovered that this wheel can be controlled by his own mind. He can control the speed of its rotation. When he needs it to accelerate, he can also actively accelerate it. This is a very useful way to move forward at high speed on relatively flat ground.
.Accelerate to the limit on flat ground, and the speed can be faster than normal running.
Lan Nuo tried to stand up again. When he made this attempt, the wheels also cooperated with it to slow down his rotation speed. Although he was still gliding forward, he seemed to be standing up from his kneeling position.
It's the same as on flat ground. This is to simulate the effect of being on flat ground by calculating acceleration. He originally thought that it would be more troublesome to switch back to the original posture from this gliding posture. It was like an ordinary person wearing roller skates.
If you rely on your knees to slide on the wheels on the ground. If you want to return to a standing posture and not rely on your hands to support the ground, you need considerable skills. You need to learn to use one leg and knee to maintain your balance and the other to step on it.
on the ground.
But driving a mecha does not have this effect at all. When the speed of wheel rotation can be adjusted, there is almost no need to maintain balance. It is just like being on the ground. You only have to stand firm.
After trying to stand up successfully, there are more posture tests. For example, performing a front somersault. This can also bypass obstacles. And this difficult posture is also very good for all aspects of the mecha's performance.
A test of level. A person who has never been exposed to the pilot of this type of mecha before. If he wants to successfully complete a somersault during the test of this process, he not only needs to master this skill in reality, but also needs experience in the mecha.
The designer was able to reproduce this technique on the mecha. This was quite difficult. But thankfully, this difficult action was also successful.
Including handstands and backflips. These more exaggerated movements can also be completed by mechas.
"Okay, the control of basic movements has been basically completed. Then we need to control some special movements.
I don’t know if you have noticed that this generation of mecha is different from the one you made. We have enlarged its size. In the original transmission device of the generation you made, the driver’s arm was also deep into the mecha.
Although the one in the arm does not go deep enough to make it look like he is wearing a suit of armor, it also affects the mecha's movement space to a certain extent, so that he can only make movements that normal humans can do.
This time, in our design, the cockpit is completely located on the torso of the mecha. Only when actions such as bending are needed, will it affect the driver's driving space. When performing sports actions, the driver's limbs are
It is not in direct contact with the mecha's limbs. This is controlled by relying on other transmission devices.
This means that the mecha's limbs can perform a series of actions that the human body cannot perform. For example, anti-key operations. Or the arms can rotate like windmills. It is impossible for normal people's arms to rotate like this.
. But the mecha can. It can even complete the twist of the waist. It can achieve the effect that the lower body does not move but the upper body turns 180 degrees. Theoretically, if you want, the upper body can also rotate like a windmill. This is also a quite
Special attack mode. While the upper body rotates at high speed and a weapon is waved in the hand, it can create an effect like a sword storm.
The special control mode in this area also requires cooperation with the driver and attempts to test it. What is being tested here is not just the rotation system, but also the visual assistance system."
Lan Nuo did not expect that when these guys designed the mecha, they also considered the anti-joint design. They took advantage of the advantages of the machine itself and were not limited by the original joints of the human body. He was very interested in this function and was trying it himself.
At that time, similar functions were not even designed.
And after he boarded the mecha, he also felt the power of this thing. When the arm rotates at high speed, the inertia of the arm can be perfectly utilized. The rotation speed can be like a windmill, like two huge pieces.
A chainsaw can smash almost everything in its path.
The content of the test is to maintain balance in this state. And when the arm hits an obstacle, whether the programmed response made by the mecha can assist the driver to maintain balance. This is also the most difficult part. Because
The driver can't do this kind of action at all, so he doesn't know how to maintain balance in his mind. Everything depends on the designer's design and the auxiliary calculation of the program.
Facts have proved that this project is indeed quite difficult. After the high-speed rotating arm hit the obstacle, the mecha immediately lost its balance. Normally, without any assistance, this kind of impact would definitely not be able to maintain balance. Now
Even with the assistance of computing equipment, when the arm rotated at high speed and hit an obstacle, the mecha shook for a while before regaining its balance.
Lan Nuo estimated that the gyroscope technology of this group of people was not very perfect yet. Although they could calculate how to maintain balance to a certain extent, there must still be a series of problems in execution.