The head of the headquarters was really shocked by Zhuang Jianye's words.

Although mechanical exoskeletons seem very science fiction in the eyes of ordinary people, they are not unavailable in the field of military equipment research. Take the United States for example. In the 1960s, General Motors began to try to develop mechanical exoskeletons to build the so-called super warrior for the US military.

Europe and the former Soviet Union also followed suit. The reason for this is nothing more than that because mechanical exoskeletons can increase the burden on soldiers and improve the durability of the human body.

Not to mention the other group of super soldiers holding Gatlin spinning machine guns, they will face a small group of ordinary soldiers holding AK assault rifles. No matter what, the other soldiers holding AK can be pressed on the ground and rubbed them from the firepower alone.

In addition, among artillery, a 155mm shell is quite heavy. In actual combat, two soldiers usually get tired of it and can barely support rapid fire in 3 minutes.

If you want to keep your firepower, you either replace people and lift the shells, or lower the rate of fire to let the ammunition provider take a breath.

With mechanical exoskeletons, it is different. It is enough to provide one ammunition man. With the support of mechanical exoskeletons, even thin soldiers can transform into strong men. It is exaggerated to hold a mountain of thousands of kilograms, but it is still easy to have something about one hundred kilograms.

So let alone a 3-minute rapid fire, it is only 5 minutes, or even 10 minutes. The ammunition supplyer wearing a mechanical exoskeleton can handle it alone.

This not only ensures the sustained firepower of the artillery and the strike effect, but more importantly, it can reduce the basic organization of the artillery, make the artillery units smaller, compact and sensitized, thereby improving the battlefield survival conditions of the artillery.

Also, in terms of logistics support, domestic frontiers, especially those high-altitude outposts in the border areas and snowy areas, daily supplies require manpower to carry them step by step.

Not only is it time-consuming and labor-intensive, but the key labor is limited after all, and it is impossible to have too much load.

It is different with mechanical exoskeletons. Logistics soldiers can carry twice or even twice or three times more weight. In this way, when transporting logistics supplies, the previous two or three transportations may be completed in one go, which is not only intensive but also efficient.

Because of this, this mechanical exoskeleton may be just a supporting component for super soldiers for European and American troops, but it is indeed a necessity for domestic troops. It is really a good thing that almost all branches of the army need.

However, after nearly twenty years of patience, the troops have to make up for too many shortcomings, and the financial tension has not been fundamentally alleviated, so the headquarters functions spend money on the cutting edge and make every effort to ensure the construction of key equipment such as "trump card".

For cutting-edge equipment like mechanical exoskeletons that are not urgently needed, the headquarters is really willing but not capable. They can only entrust their subordinate research institutions to track the development trends abroad, do some theoretical research, and wait for the funds to be sufficient to find ways to invest in actual research and development.

However, unexpectedly, Zhuang Jianye's Tengfei Group can also create such good things that represent the future development direction of individual equipment, which is not surprised by the head of the headquarters?

But I was a little confused in the blink of an eye. You should know that there are many domestic manufacturers of prosthetics and wheelchairs. Although it is not as famous as Tengfei Group's "Farke" brand, there are several companies that are still good. Why didn't they make mechanical exoskeletons? Only Tengfei Group did it?

“Because we are doing high-end.”

The answer given by Zhuang Jianye was as slutty as ever, which made the head of the headquarters frown, wishing to strangle this bastard who loves to show off. It seems that no one knows that your Tengfei Group is doing high-end. Is it listening to this? We need to know if your development context is good!

Of course, Zhuang Jianye knew, so he smiled and continued to say, "How high-end is it? Let's put it this way, our latest prosthetic arm can judge the host's movements based on the muscle changes at the broken limb, and then pass it to each joint of the prosthetic limb through the servo system to achieve normal arms swing, grab, put down, and other operations.

Of course, this system can also be controlled by voice. For example, if the host says 'catch', the prosthetic arm will control the palm to grab what you want to grab..."

Zhuang Jianye introduced to the head of the headquarters what FK is really core, that is, his mastery of ergonomics and related data information.

Speaking of this, I have to thank Mr. Hawking, who cannot speak, and his daily communication can only be done by moving three fingers to control the keyboard to type text, and then read it out by simulated sound.

But as Hawking's condition worsened, only one of the three moveable fingers was left, and the difficulty of reading and writing suddenly increased twice. There was no way, Hawking's finger was too busy.

So while building a wheelchair for Hawking, Hawking hoped to improve his communication equipment so that he could communicate easily with outsiders with one finger.

Tengfei Group has no problem with wheelchair hardware, even setting laser gyroscope data and lidar applications is not a problem, because this thing is much less difficult than planes entering the sky and satellites entering outer space.

But Tengfei Group is unable to play with things like language communication that involves ergonomics and neurology. After all, Tengfei Group has specialized in its profession, so Tengfei Group has never touched this thing. What should they do?

Faced with this situation, this time it was not the romantic Evans who made the move, but the technical mate Irving. He spent more than a month traveling to and from Europe and the United States, visiting relevant disciplines of major universities and dozens of startups with great potential, and then hired top medical experts to screen the results and startups of these laboratories.

After making a list, without saying a word, Irving's version of inhumanity is activated.

The startups you like directly acquire them, and the scientific research institutions you like directly spend money to buy them out.

What? The founders of startups don’t sell?

Then take a similar product from the company, sue them for infringement, and sue them step by step until the startup collapses.

What did you say? A certain scientific research institution does not provide results?

Then just dig up all the core experts who have this result, and even the entire team.

In this way, Owen worked hard for more than half a year and obtained a large amount of ergonomics and neurology data, as well as the latest achievements in the application of these two related disciplines and computers, and then handed them over to Zhuang Jianye.

Tengfei Group does not lack software programming technology, nor does it lack theoretical analysis capabilities. What it lacks is these basic data that has been going on for decades. Now Irving packs these data for less than 10 million US dollars, which is equivalent to avoiding decades of detours for Tengfei Group.

So relying on this data and Tengfei Group's advantages in other aspects, it quickly developed a FKZB muscle determination recognition system.
Chapter completed!