Take 5 anthropomorphic bodies from the anthropomorphic body storage room.
Li Qingye came to an exclusive experimental area that had been prepared for a long time, and more than a dozen scientific research assistants were ready.
"Let's get started!"
Following his order, the scientific research assistants began to get busy.
They lifted an anthropomorphic body out of the life-support chamber, inserted various life-support equipment, and then inserted a specialized syringe needle into the veins of the anthropomorphic body.
Then he took out a cylindrical container from a biological safe, which was about the same size as a large thermos flask.
Connect the container to the syringe.
Press the start switch, and the special liquid in the container is injected into the human body bit by bit.
Another scientific research assistant was checking the feedback data from the artificial brain.
Injecting neural network building cells into cartilage tissue is another key point of the endoskeletal system, which is to allow the cartilage tissue to be completely integrated with the biochip.
These cartilage tissues are integrated with muscles, blood vessels, bones, and internal organs to form an artificial skeleton that is integrated into the human body.
A large number of free cells in the special solution enter the entire body of the human body through the veins.
Once encountering a sudden external force, the soft endoskeleton will instantly harden and tighten the body.
At this time, in the scanned holographic body model in front of Li Qingye, the white lines represented cartilage tissue, and these cartilage tissues were densely covered throughout the entire body of the experimental subject.
The stronger the external force, the harder the endoskeletal system will become, which is similar to the force pattern of non-Newtonian fluids.
"Injecting neural networks into cells."
In short, it means getting stronger.
If the overload exceeds 8G, the protective effect of bio-based armor will decrease. If the overload exceeds 12G, even with bio-based armor, astronauts may still fall into coma, develop black vision, red vision, and induce cardiovascular diseases.
At the same time, a special symbiotic fungus has been implanted in the upper respiratory tract, which can insert mycelium into the alveoli, absorb oxygen from the liquid, transport the oxygen to the alveoli, and expel the carbon dioxide released by the alveoli.
The actual situation is currently being tested.
Among them, the endoskeleton system implanted in the alveoli is the most special part, because this part of the endoskeleton can also have another effect, which is to block direct contact of external liquid with the alveoli.
Its limitation is that when the overload exceeds the threshold, various organs of the human body will be compressed, resulting in difficulty breathing and abnormal blood circulation.
For example, if the body is hit hard, it will also lead to coma, damage to internal organs, broken bones, ruptured blood vessels, and even death.
"yes."
At the same time, with the endoskeleton system, after equipping the exoskeleton with bio-based armor, the coordination between the body and the exoskeleton will be more perfect.
Cartilage cells completed the construction of the endoskeleton. At this time, the weight of the experimental subject increased by 18.3%, the height increased by 3.2 cm, and the body outline became much thicker.
The endoskeletal system composed of special cartilage tissue groups is similar to the sponge body in its nanostructure. After it is formed in the body, it will store a certain amount of physiological saline.
"Chairman, cartilage tissue has begun to form."
Probably more than an hour passed.
However, there is a limit to the pressure of the endoskeleton. If the instantaneous overload exceeds 30G, even with an endoskeleton system, the body will be overloaded and explode.
But all this is a case of supercomputer simulation.
Especially during the ascent stage of the launch vehicle or the orbital airdrop stage, overload is basically a common occurrence.
Through a series of feedback data from practical applications, various aerospace subsidiaries have discovered that the current bio-based armor has certain limitations.
Regarding this point, when Li Qingye and a group of researchers designed the endoskeleton system, they actually did not have too high expectations. The ability to achieve safe overload below 25G is the greatest value of this system.
In application practice, although the old version of bio-based armor has very good functions in all aspects, it still has some shortcomings.
Because bio-based armor has another big application field - space suits.
The part of the cartilage tissue surrounding the blood vessels, through contraction and squeezing, successfully reduces the blood supply to some parts of the body, or even directly intercepts it.
In other words, humans at this time can breathe directly underwater.
With the cooperation of biochips, it is possible to lift a weight of 500 kilograms without the need for an exoskeleton and jump from a height of 10 meters without any damage to the body.
Li Qingye turned his chair and looked at the holographic body structure model formed by the scanning equipment. A layer of cartilage under the dermal tissue on the surface of the human body began to form.
Although the security forces of Homo sapiens companies rarely come into close contact with the enemy, it does not mean that this problem can be ignored.
When the last part of the cartilage tissue is connected to the neural network building cells, the endoskeletal system inside the human body is officially implanted.
Only by completing the neural network connection can we achieve refined control of cartilage tissue.
"Report, the height of the experimental subject..."
This process took 8 hours.
As the cartilage cells continue to build cartilage tissue in the subject's body, the subject's body weight increases little by little, and the height and body shape also expand little by little.
In order to solve this problem, the endoskeletal system came into being.
Then artificial cardiopulmonary resuscitation is performed directly inside the body. The endoskeletal system can directly squeeze the heart, and there is no need for external compression.
Li Qingye and his scientific research assistants looked at the feedback data from the artificial brain, and the cartilage tissue inside the human body was connected bit by bit to the biochip through the neural network building cells.
Endoskeleton, as the name suggests, is the skeleton in the body, used to distinguish exoskeleton and autologous skeleton.
The old version of bio-based armor mainly consists of a biological exoskeleton covering the body surface, plus various functional symbionts, symbiotic bacteria and biochips in the body.
"Report, the experimental subjects are gaining weight..."
This artificial skeletal system is called an "endoskeleton".
But another subsidiary, Dandelion Aerospace Group's aerospace airship and aerospace transport aircraft, has a maximum overload of 6.7G during the atmospheric ascent stage, and in the event of an emergency suborbital airborne landing, the maximum overload can even reach 12.5G.
In fact, the endoskeletal system has many functions, including load resistance, bulletproof, impact resistance, heavy pressure resistance, and improved athletic ability.
The reason why Li Qingye developed endoskeleton is to strengthen the human body, which is actually one of the components of bio-based armor.
"Test blood regulation."
Until 36 hours later.
Of course, the endoskeletal system can not only be used for load resistance.
These cartilage tissues are distributed in a fibrous structure, growing from under the dermal tissue on the body surface, and then spreading to muscles and internal organs.
The next step is to test artificial assisted intestinal peristalsis, varicose vein repair, respiratory foreign body discharge, and assisted breathing.
"OK."
At present, the Medan Aerospace Group, a subsidiary of Homo sapiens, produces the Ape-eating Eagle launch vehicle with a maximum overload of 4.8G during the atmospheric stage. For astronauts equipped with bio-based armor, this overload is nothing.
In order to solve the problem of fluid exchange caused by underwater breathing, the endoskeletal system can temporarily open the upper respiratory tract and esophagus, and at the same time temporarily close the connection between the esophagus and the stomach, allowing oxygen-containing liquid to enter from the respiratory tract, and carbon dioxide-containing liquid to be spit out from the esophagus.
Of course, if this special underwater breathing mode is used in a natural water body, the human body's activity function will be greatly reduced, because the oxygen content of the natural water body is too low, and there will be insufficient oxygen supply.
Without the assistance of the endoskeletal system, underwater breathing or even swimming would be impossible, and one could only float on the bottom of the water.
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