Chapter 1232: Teach You How to Make a Bionic Robot (3rd Update)

“And makeup is not just for women, it has no gender restrictions, men can wear makeup, and teenagers can also wear makeup.

But after all, our bionic skin does not have the same biological structure as real skin, so it cannot be bionic in this regard. "

Hearing Gou Xun's words, Gu Qing shook his head.

"Since you want to do bionics, you should broaden your horizons. Can you directly cultivate flesh and blood skin? Can you use mechanical bionics to mechanize and bionic every organ and component of the natural human body?"

When Gou Xun heard this question, he nodded, and then shook his head.

He handed a tablet to Gu Qing, which was densely packed with cutting-edge research materials in several related disciplines.

And explained on the side: "When we were developing the robot carrier project for the virtual girlfriend, we were paying attention to the current situation of the bionic project.

As you said, the human body is indeed an extremely complex and precise instrument. Many scientists even believe in the existence of the Creator in their academic studies, because only the special existence of the Creator can develop the special instrument of us humans.

For example, our bones not only support the body and organs, but they can also carry out a wide range of movements while bearing the load imposed by body movements.

Through the linkage mechanism and the support of various motors and chips, our project team verified the effectiveness of the mechanical design by using pneumatic artificial muscles similar to human muscles to drive the mechanism.

Since the robot's movements are similar to the human musculoskeletal system, we simplify the conversion between electromyography signals and pneumatic artificial muscle control inputs...

Creating robots that behave as complexly as humans is one of our main goals, and biomimetic design of engineered systems by mimicking biological systems is already a solution we pursue on every project.

However, the surface layer of human skin cannot currently be solved by bionic methods. If we use nanorobots to make microscopic changes, the weight, battery life, and chip of the bionic robot will exceed the limits.

…”

Although it is not stated explicitly, the attitude of inquiry has been clearly expressed.

It’s not that everyone hasn’t considered the direction of bionics. After all, it is a bionic robot, a humanoid robot, a real carrier for a virtual girlfriend, and it must be like a human being.

Gu Qing was not angry at this somewhat harsh answer. Instead, he was very calm.

There is no so-called relief, and there is no so-called right. After teaching those academicians, he basically had this expression when facing everyone's objections, doubts, and arguments.

Scanning the literature on the tablet and the current information on experimental projects, while thinking about the structure and material development of bionic robots, he spoke to the main people in charge of the virtual girlfriend project in an almost unscripted manner: " The mechanical structure of the human musculoskeletal system obtained from the biomechanical literature compiled by your project team can indeed be easily converted into the design of the corresponding mechanism of the musculoskeletal robot. Even this conversion and transformation process does not need to be completed by you personally, the intelligent AI program Tiangong can come up with no less than three overall humanoid bionic mechanical structure plans through large-scale calculation comparison and resource integration.

However, due to the complexity of the human body structure and the difference from the design of engineering machinery, it is very difficult to design a solution that conforms to the movements of all mechanical structures and also conforms to the movement patterns of the human body.

I've seen people researching ways to develop mechanical musculoskeletal structures with complex mechanisms for hands, feet, necks, etc., that can realistically simulate the movement of bones and joints.

The bionic mechanical prosthetics department has given you the quantitative data on the movements of each large skeleton and the qualitative data on muscle stretching/contraction movements, so this problem is not a difficult problem.

It can maintain a large amount of exercise and force transmission, while maintaining extremely high stability of the entire body and limbs.

This is the first important difficulty that your project team has overcome. After all, among bionic robots, humanoid robots are almost several times more difficult than mecha projects to achieve this level due to size and weight limitations. "

Hearing what Gu Qing said, the expressions on the faces of Gou Xun, Li Song and others changed a lot.

They did not expect that Mr. Gu, who has advanced research on intelligent AI, also has such a strong understanding of mechanical equipment, and his depth of knowledge is no less than that of some R&D personnel in the project.

Gu Qing seemed not to notice the strange looks from these people. With a wave of his right hand, he posted a document and information from certain research laboratories at home and abroad on the public screen of the project team's laboratory.

“These are some musculoskeletal robots with complex mechanisms of organs and bones that have been developed at home and abroad.

Some of their designs use spherical simplified shapes to achieve bone-like surface contact, but this can only be a simple simulated movement. Once the movement intensity and accuracy are increased, it will immediately become a mechanical toy.

There is also this lab, which focuses on the trade-off between bone contact status and shape imitation to achieve sufficient movement strength and stability.

However, this rigid design requires complex control of the moving parts to imitate real people's actions. It can only perform ordinary jumping and walking, and cannot complete dance, competitive sports and other events at all.

Your project team can communicate and cooperate more with the mecha project team. Although they rely on material strength and mechanical design to ensure the strength and stability of the movement, you can learn more about some bionic design concepts.

After all, the bionic humanoid robot is just a project, and there is no requirement that the research and development design of the robot must imitate humans.

We can imitate the expansion and contraction of the lobster's shell, the force of ants, and the hollow bones of birds, with the help of nanorobots, smart chips and polymer materials.

For example, for skin, we might as well cultivate the skin directly, use the outer layer of the bionic robot as a culture dish, and fix the skin and shallow flesh and blood on the culture dish.

In addition, the bionic joints produce equipment detachment due to the intensity of movement. Among the factors you consider for this experiment, I personally think that it is mainly due to the lack of support from other soft tissues. Just like our human body has ligaments, muscles and joint capsules, bionic joints should also have similar tissues, or have other equipment support.

Look far ahead and don't get entangled in the human body, but also look close and look for answers in the human body. "