As the temperature continues to rise, Anzai is gradually entering the summer season.

The flowers receded and the green leaves became shady. The employees who have just finished the May Day holiday are now devoting themselves to tedious work with high morale.

After busy with the relevant cooperation with other enterprises, Wu Hao finally got rid of the cumbersome things. Of course, it's far from over, and in June, they're going to have a new summer launch.

However, Wu Hao threw all these things to Zhang Jun, and he plunged into some projects that were being developed.

Located next to the four parks of Haoyu Technology, there is a newly renovated park. This park is basically the same as the park where their original four large villas are located, and it is composed of four large villa-style office buildings with four to five floors.

With the transfer of the relevant administrative and marketing departments of Haoyu Technology to the high-rise office building next to it, the original four parks were basically handed over to the R&D department.

With the increase of various projects in the R&D department, the number of R&D personnel is also increasing, and now it has reached more than 3,000 and nearly 4,000 people. And that's just that, not counting the project R&D teams of other divisions in various locations.

The original four parks with so many people are definitely not enough, so they are gradually dispersed to some of the surrounding small parks, and some information and software project research and development teams are placed in high-rise office buildings.

Compared with high-rise office buildings, everyone actually prefers this kind of low-rise park. Therefore, several parks around the original four parks were all rented by Wu Hao and turned into special R&D laboratories.

The park, located next to the original four buildings, is a scientific research building that belongs to the hardware R&D laboratory. In fact, there is no so-called hardware R&D laboratory anymore, and the original hardware R&D laboratory has been split into more than a dozen special research laboratories. These include microelectronics, mechanical engineering, new materials, new energy, chemistry, and a series of projects involving such hardware and basic research.

The R&D teams of these projects are usually managed independently, conducted independent research, and do not interfere with each other. Only when the relevant project requires it, the relevant personnel from each research laboratory will be drawn to form a project development team.

This includes the relevant R&D project team of the smart home manipulator HS_2 they launched at the press conference some time ago, or a special R&D laboratory.

The name of this laboratory is the Automated Machinery Technology Research Laboratory, and its main task or main work is to develop automated machinery products.

What is an automated mechanical product, this includes a wide range, such as the smart home manipulator HS_2 they launched some time ago.

However, this product is not their main product, or rather a spin-off of their related research projects.

Speaking of which, you may have understood that this automated machinery technology research laboratory is a steering laboratory established by Wu Hao in order to develop robot-related technologies.

The lab was founded very early and started as a team of a few people. With the launch of their smart home manipulator HS_1 after achieving good results in the market, the team has also expanded rapidly, and now it has reached more than 80 people.

Of course, this isn't the only lab working on robotics. In fact, there is also a laboratory, but it is mainly biased towards artificial intelligence, that is, AI research.

Compared with the artificial intelligence research laboratory that is biased towards system information, this automated machinery technology research laboratory is mainly responsible for the research of automated machinery.

To put it in layman's terms, one is responsible for the research and development of the robot's brain, while the other is responsible for the research and development of the robot's body hardware.

The main task of the research laboratory for automated mechanical technology is to develop projects on the hardware of the 'body' of robots that can move flexibly.

The two laboratories are independent of each other, cooperate with each other, and compete with each other. Wu Hao is the general director of these two laboratories, and is the glue and coordinator between them, responsible for presiding over the relevant R&D projects of these two laboratories.

Because the whole project is very large, time-consuming, laborious, and hugely invested, Wu Hao has also formulated a very detailed long-term development plan for this.

In order to participate in the air show held in Zhushi this autumn, Wu Hao, as a first-time exhibitor, must come up with one or two products that can control the field.

Although they have developed a series of civilian and police security drones, this is not enough, so Wu Hao hopes to be able to get a piece of equipment that attracts attention before participating in the air show.

So he focused on this remotely controlled intelligent manipulator, to put it bluntly, it is to control the manipulator to work through remote control.

This technology is actually not new, and it has been used in many exhibitions and even in some industries. It's just that these products are very rudimentary, very slow to act, and have a very limited scope of application.

What Wu Hao and they developed this time is a kind of intelligent robotic arm that can be controlled in real time, simply put, it is to use wearable devices to synchronously transmit the movements of human hands to the manipulator to realize real-time control of the manipulator.

This technology is also a cutting-edge field that the world's major military powers and some technology giants are competing to research, and the prospects for use are very wide.

For example, the strength of our ordinary arm's arm is very limited, and it is basically impossible to pick up a heavy object. If you operate the robot, you can lift this heavy object very easily.

It can also be remotely controlled, which allows people to stay away from the scene and avoid danger.

Because the robot is very flexible, it can be said that it is no different from the flexibility of a real hand, which can be used for some delicate tasks. For example, experts in large hospitals in big cities can use this set of manipulators to perform remote surgery, and its operability and flexibility are far more convenient than the current remote control technology.

Alternatively, with this kind of manipulator, we can remotely control and disassemble some dangerous devices to avoid injuries.

Alternatively, we can use this kind of robot to perform delicate operations in areas that we humans cannot reach. For example, equipment repair in the deep seabed, operations in the space environment, and refined operations in those small spaces.

It's also very versatile in the military field, which means you can have a pair of hands that are very flexible and able to carry heavy loads, which can be used to load some large weapons and ammunition, or to repair some large weapons and equipment.

Or use its remote control feature to remotely control some weapons and equipment to reduce the sacrifice of personnel.

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