Metropolis: King of Hackers!

Chapter 313 : Two driving methods!

Only with the help of DBRE behavior dynamic recognition engine, a technology called real-time dynamic simulation, can it be completed.

The so-called real-time dynamic simulation technology is a technology that can simulate the dynamic behavior of the human body. Through this technology, the metal exoskeleton can be more suitable for the human body and facilitate the operation of the human body.

For example, the behavior dynamics of going up the stairs, if you use the behavior dynamic capture program, you can not complete this command. And using real-time dynamic simulation technology, you can feed back to the metal exoskeleton, what kind of behavior dynamics need to be achieved in order to complete the action of going upstairs.

Through the built-in computer analysis and real-time dynamic simulation technology, the commands corresponding to the metal exoskeleton are automatically analyzed, so that the combatants attached to the metal exoskeleton can better operate the metal exoskeleton.

It’s just that this kind of analysis command, only with the built-in computer, may have some trouble. At that time, a data connection should be required, and the metal exoskeleton can be supported at any time through a more powerful external computer, and the built-in computer only processes the final result.

The Lin’an underground base is only carrying out the metal exoskeleton plan, and a large number of staff have been dispatched from the Rongcheng Military District.

On the second floor of the underground base, a complete laboratory has been established, as well as the rest of the infrastructure under construction. Those infrastructures are to prepare for the later establishment of production lines.

Dong Guoguo is indeed a talent. Chu Hao gave Dong Guoguo the metal exoskeleton plan in the Robot plan. In a short period of time, he has actually researched quite a lot of results.

Li Yuan stood behind Dong Guoguo, looked at Dong Guoguo’s computer, a picture of European medieval armor, and asked: “Uncle Dong, is this the metal exoskeleton armor you designed?”.

In the Robot project, there have been several almost perfect designs for the shape of the metal exoskeleton. But even if the shape solution of the metal exoskeleton is solved, the key is how to design the driving method of the metal exoskeleton, which has become a big problem!

In the field of metal exoskeleton, there are currently two power driving methods.

The first is a pneumatic way, which is to drive the movement of various mechanical parts in a way of gas pressure. The pneumatic solution has some advantages, such as lower body weight and more flexible power output. However, the pneumatic solution also has weaknesses. The most serious weakness is the problem of pneumatic pressure. The volume of gas can be highly compressed, which is a considerable drawback.

The second driving scheme is hydraulic driving. At present, the hydraulic method is the mainstream, and it is the main research scheme of various metal exoskeleton mechanisms, and there is a relatively mature technology.

After solving the driving scheme, we are facing a new problem, that is, the 250 problem of energy reserve!

Due to the limitation of shape, metal exoskeleton cannot carry a lot of energy like airplanes and armored tanks.

The humanoid shape and structure are destined to only carry a small amount of energy. This is true whether it is electrical energy or chemical energy.

Regarding the issue of energy, in the Robot plan, three energy options are given.

The first is a chemical energy composed of liquid hydrogen and liquid oxygen. The calorific value of hydrogen is three times that of gasoline.

That is, hydrogen of the same quality produces three times the energy of gasoline.

However, liquid hydrogen also has its weakness, that is, the density of liquid hydrogen is too low, only 70.8KG/m3. .