I have opened a new book "I Upgrade in Xiaobai's Literature". I would like to ask all book friends to collect, recommend, and leave a message! Ants thank you!

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Later, some doctors also adopted the procedure of surgery from the previous one, but this required a big hole.

Moreover, during the operation, you need to turn out the patient's intestines to expose the surgical field.

This approach actually causes great harm to the patient and is very unfavorable to the patient's postoperative recovery.

Later, the emergence of surgical robots greatly alleviated this problem.

If a surgical robot performs such an operation, there is no need to make a large wound on the patient's body or expose the surgical field on a large scale.

This is very conducive to avoiding bacterial infection, and because the wound is small, it is also very conducive to the patient's postoperative recovery.

However, such surgery also faces a problem, that is, how to accurately reach the operation area.

As we all know, when using surgical robots for surgery, it is generally necessary to locate the patient's abdomen, then drill holes in the abdomen, and inflate them at the same time.

Then, when the robot arm is inserted into the patient's abdominal cavity, it is necessary to advance according to the precise trajectory to send the robot arm to the operating area where the patient needs surgery.

When performing surgery on the kidney, the robotic arm needs to bypass the patient's intestines when it is penetrated.

The intestines are very sticky organs. If you want to avoid this organ, it will test the feel and experience of the operator.

Therefore, the setting of the robotic arm control system of the surgical robot is often very interesting.

The joystick operated by the doctor moved one centimeter, but in fact the robotic arm moved only one millimeter inside the patient's body.

Moreover, there must be three-way robotic arms followed up, one by three-dimensional imaging camera.

The other two ways are the robotic arms that need to perform surgery.

The doctor needs to operate these three robotic arms, through three holes punched in the abdomen and enter the surgical area at the same time. This is not a simple operation.

This is also the main reason why before using a surgical robot to perform an image on the patient, X-ray, CT machine, PET-CT, and MRI are required to perform imaging on the patient.

Because after using these devices to create images, the data of the perspective imaging will be input into a 3D imaging system developed by this company.

Then use these data to perform 3D modeling of the patient's body.

Through so many equipment cooperation, they can complete the restoration modeling of a 100% live person proportion.

After restoring, they also have to use surgical robots to conduct virtual path experiments.

The purpose of this experiment is actually to imitate the process of a robotic arm entering the patient's body and reaching the operation area.

The main purpose of this simulation experiment is to allow the robotic arm to avoid other important organs of the patient to arrive at the operation area during the actual operation.

Otherwise, if this step is not available, the doctor will directly operate the robot's robot's robot and enter the patient's body, which will easily cause medical accidents.

Because there is no line simulation and is not familiar with the environment in the patient, when the doctor operates the robotic arm, it is easy for the other important organs in the patient to smash the patient's body.

If such a disaster occurs, the patient will almost certainly not be able to get off the operating table.

Therefore, before the operation, this simulated entry route is an indispensable step.

And this step will be called navigation positioning.

Moreover, even if the doctor simulated the entry route thousands of times before the operation, some errors will inevitably occur when the operation begins.

This is also the main reason why doctors control the accuracy to millimeters when operating the robotic arm.

When the robot arm enters the operating area and reaches the ideal operating position, the doctor will operate the robot arm to lock it.

At this time, the mechanical arm is basically fixed except for the operating clamp at the front end.

This is what makes the robotic arms better than the human body, because even if the human body is stable, there will be problems such as muscle shaking.

Moreover, as the doctor breathes, various displacements of human hands will inevitably occur, so this will also affect the accuracy of the surgery.

But there will be no such problem with the robotic arm. Once locked, the filter in the robotic arm of the surgical robot will filter out the oscillation from all aspects and keep the robotic arm in the optimal stable state.

Therefore, the previous operation forceps can be allowed to complete the operation. At this time, the operation forceps can be completed in the patient's operating area, such as fixation, cutting, freeing, suture, etc.

And when it comes to accuracy and stability, it is definitely even better than that of humans.

It is no exaggeration to say that when it comes to the standard of suture, the accuracy of the mechanical forceps is even higher than that of a doctor's manual, and it is more beautiful.

The distance between each suture step is accurate and orderly.

This is the natural advantage of surgical robots.

However, the surgical robot developed by Huang Haibin is far inferior to the intuitive sensor company in terms of positioning and navigation and three-dimensional imaging cameras.

There is also someone else's 3D modeling system, which is what he lacks the most at present.

At present, human data can be photographed by X-rays, CT machines and other perspective equipment around the world.

Only through these data, one hundred percent recovery of human body modeling can be completed. Currently, only intuitive sensor companies in the world have such software tools.

This is also the main reason why Japan and Germany are both powerful medical equipment countries, but they cannot create surgical robots.

Because in the field of medical software development, especially in this field of 3D modeling, they are really weaker than the United States.

Even in this regard, they may not be able to compare with us.

The software field that Germany and Japan are good at is currently the only one in the control program of industrial machine tools.

As for other aspects, they really can't catch up with the United States, and even some areas are not as good as those of China.

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Huang Haibin felt like he was dreaming. He had expected that his surgical robot project would be approved by the review committee.

After all, this is also a project he has secretly devoted himself to studying for more than ten years, and he is confident in the technology he has mastered.

But what he didn't expect was that he only had 200 million yuan in start-up capital, but the Quanye Fund approved 300 million yuan.

And the other party also asked it very happily, and would give the strongest technical support in his headache-inducing positioning and navigation.

That is to say, the Ninth Laboratory, as its parent company, is willing to develop a set of 3D perspective imaging equipment for him and is willing to develop a 3D modeling system for him.

The accuracy of this system is not worse than that of intuitive sensory companies.

In addition, the Ninth Laboratory also notified him that they were willing to contact a company called Spark Technology to help him solve the problem of three-dimensional imaging cameras.

However, the technical support provided by the two companies must each account for 10% of his equity.

In addition, the 300 million yuan given by Quanye Fund will account for 20% of its equity.

In other words, as soon as the company opened, he had already spent 40% of its equity.

To be honest, the other party's lion spoke up, which made him feel a little unhappy.

But when I thought about it, wouldn’t this be a chance to reach the sky one step at a time?

Give him 300 million at a time!

This is equivalent to buying out his retreat directly. Even if the company is broken, he doesn’t have to be afraid!

From those 300 million miles, he took out 100 million as his way out, and he had no worries about food and clothing for the rest of his life.

In fact, in his estimate, tens of millions of start-up capital of this company is enough.

Because Quanye Fund is in the Sports New City, it has also built a new hatching park.

In that park, office buildings are free and you can enjoy very good tax preferential policies.

High-tech start-ups like him are not only tax-free in the first five years, but if they can hire more than 100 people, and more than ten people in the 100 people will have master's degree or above, the park will also provide talent subsidies of more than 300,000 yuan per year.

In addition, the park will provide extremely low-priced, almost free single apartments as special talent subsidies.

This almost relieved him of all his entrepreneurial concerns.

In this case, what else can he be afraid of?

Even if he fails to start a business, he can still go out and find a new job.

Moreover, with his qualifications and education, it is not difficult to return to the ninth laboratory.

Even if he doesn't go back to the ninth laboratory, he is not afraid of not being able to find a job.

Because now he has many classmates who work in various pharmaceutical companies or medical device companies in Beijing, Shanghai, Guangzhou and Shenzhen.

It is still no problem to find these old classmates to help you find a similar job.

Moreover, he has a certain family background now. At that time, the 300 million yuan will definitely be at least 100 million yuan to serve as a way out for himself.

So even if he fails to start a business, he is still a billionaire.

After understanding this, he happily signed the contract sent by Quanye Fund.

Today, he was invited by Quanye Fund to visit a company.

And this company is Xinghuo Technology, which has been unknown before.

To be honest, almost not many people have heard of this company who have come out of their ninth laboratory outside.

As employees of the Ninth Laboratory, the reason why they know this company is because of the facial recognition system developed by the company.

There are also the only ones they provide to the ninth laboratory, OA Xiao Ai.

In fact, he was still full of curiosity about this company, but it is said that the three-dimensional imaging system of his surgical robot must be solved by this company.

So he was naturally unhappy when he invited him to come and see it.

He arrived at the reception hall of the Ninth Laboratory early, and today the company will arrange for them to set off from here together.

That's right, he is not the only one who wants to go to Xinghuo Technology today...
Chapter completed!