In fact, it is not difficult to design a robot with an appearance similar to Dabai.

In addition to the problems in need of smart chips, artificial intelligence cores, and software programming, just talking about hardware, Ruikang Group's current technical reserves are definitely enough.

The robot's skeleton can be used with carbon fiber support and light alloy used on the powered exoskeleton. This not only allows the robot to have good protection and is not easy to damage, but also protects the user's personal safety when necessary.

As for the power source, since the solid-state battery developed by Ruikang Energy can drive an exoskeleton with a net weight of tens of kilograms and can also carry a weight of 100 kilograms, it can naturally provide energy for the robot. Even since the robot does not require high load load like the exoskeleton, the battery of the same size has a longer battery life.

The spectral cameras that bear in vitro diagnostic functions are nothing more than integrating some infrared sensors, optical cameras and spectral components used in nuclear magnetic resonance. These technologies are already very popular technologies, and most of the major medical groups have mastered them.

Although Ruikang has never done in vitro diagnostic products such as nuclear magnetic resonance, Chen Changan has the technology.

Ruikang even has the unique visual perception device technology, which allows robots to have very good vision capabilities.

Just designing the robot's head a little larger, enough to install so many spectral components, is not too difficult.

As for data analysis after scanning users, it depends on medical chips, and it has nothing to do with hardware.

As for the final appearance issue, if it is to be made as soft as Dabai, some special materials must be used, and it is best to have high tensile resistance and durability.

But this is not a big problem. At present, ethylene resins commonly used internationally, that is, plastics of various polymers, are not only flexible, light in color, not easy to yellow, wear-resistant, and have good chemical corrosion resistance.

In addition, fluorine-containing vinyl resin paint has the advantages of high temperature resistance and good weather resistance.

If you add some softer gum filler, you can create a soft and durable outer skin for the robot.

For Li Yuntong, designing or even trying to produce a qualified humanoid robot is not a problem at all.

The main problem is how to handle the control system of this robot, namely the central processing unit, and the artificial intelligence mentioned by Chen Changan.

These two are the most important points of the entire robot project. They not only need to program an excellent robot control system, but also have extremely high intelligence levels, plus some additional medical chips and cooking chips to perform their full functions.

Fortunately, Chen Changan has a way to solve these problems.

Artificial Intelligence Core?

He has a ready-made artificial intelligence algorithm logic and programming language, which only needs to be written and tested bit by bit by bit.

Medical information chip?

The existing chip process, whether it is a silicon-based chip or a carbon-based chip, is definitely more than enough to record information.

As for professional medical information?

Now is the era of big data. Various professional medical consultation apps have been used for more than ten years. These app platforms have recorded too many diagnostic records of professional doctors and some treatment suggestions.

Even if these big data are integrated, it will definitely be more knowledgeable than a single doctor, deeper, and more professional.

Just for in vitro diagnosis, it is definitely enough. Even robots equipped with these medical information may be stronger than ordinary diagnosis.

After all, a doctor who has been a medical doctor for ten years may only have thousands of patients consulted.

But the data accumulated over ten years of a medical app has exceeded at least millions of cases.

Although there may be many misdiagnosis records, after receiving so much diagnostic data, if a medical robot determines whether the user is sick, it will never make a mistake.

It is not that medical robots perform surgery on users, but that they just remind users of their physical condition, prevent the breeding of serious illnesses, and provide simple medical advice for minor illnesses, which is absolutely fine.

For example, after having big data integrated into medical chips and using in vitro diagnostic scanning, intelligent robots can issue reminders when users have some early symptoms of cancer or pre-mortem signs, and recommend users to go to the hospital for detailed examinations.

In this way, ordinary people will be diagnosed until the middle and late stages of cancer, and they will receive effective and direct medical consultation when they feel uncomfortable. They can handle minor illnesses by themselves, and major illnesses can go to the hospital for treatment as soon as possible before the condition worsens.

In fact, many serious illnesses are in the form of minor illnesses at the beginning, such as runny nose, nosebleeds, frequent dizziness, or irregular heartbeat frequency.

Most ordinary people choose to endure these situations themselves or not care about them.

When the condition is delayed to worsen, you may go to the hospital for examination, but often by this point, the condition is already very critical and it will be very difficult to treat.

Medicine has always adhered to the concept that early detection and early treatment, early detection and cure rate is also high and easy to treat.

After carrying a medical chip for the robot, the robot can achieve early detection, protect the user's physical safety, eliminate the lesions in the budding stage, greatly extend the user's lifespan, and reduce the torture of illness.

The production of medical chips is not difficult, it is just a little more troublesome.

Chen Changan needs to buy a batch of ordinary memory chips from chip foundries such as SMIC, and then buy data from large medical app companies. Finally, he spends a few months to integrate these huge medical information data, eliminate some misdiagnosed and wrong medical information, and burn the integrated data into the chip, and a piece of medical chip is completed.

The first production may be very troublesome, but the second and third films can be copied directly.

It is like a cassette of a game console. You only need to plug it into the chip slot of the robot to activate the medical diagnosis module for work.

The advantage of this is that Ruikang can not only sell robots, but also build a huge robot ecosystem and create a thick fortress that belongs to Ruikang.

Using the same chip production method, you can actually make various module chips such as cooking chips, housework chips, security chips, baby-raising chips, housekeeper chips, etc., and the production method is not difficult.

Ruikang can design four to five chip card slots of robots. It will only bring its own medical chips and housework chips when it leaves the factory. If you need other chips, you will need to spend extra money to buy them.

In this way, not only can Ruikang make money by selling chips, but it can also spawn a bunch of third-party chip manufacturing companies surrounding Ruikang robots to create an ecosystem.

This is just like the current major console companies Nintendo and Sony, which make their own consoles, while various game companies make third-party games, and then sell them to those who buy consoles to play, creating a console ecosystem.

This will allow you to have enough ability to resist risks, product competitiveness, and impact resistance.

The three host companies have been engaged in decades, but none of them have eliminated each other, because their ecosystem has been established and it is difficult to fundamentally eliminate each other.

If Ruikang also builds such an ecosystem, it will greatly improve the competitiveness and influence of Ruikang Group's robots.

And it can also drive the entire industry to support itself. If you do business, you must unite the majority and attack a small group. It is not advisable to be enemies of the world.

When a product can affect dozens of supporting ecological enterprises, the product will not be shaken by anyone.

Because once a confrontation is launched against the robots of Ruikang Group, the enemy will not only face a company of Ruikang Group, but will face hundreds of upstream and downstream companies of the entire affiliated ecosystem of Ruikang robots.
Chapter completed!