Military Technology

"Our human movements are all controlled by our brains. After the brain gives orders, the bioelectrical signals composed of related orders will be transmitted along the neural network of the spine to the limbs and other parts of our body.

When the spine is injured or has pathological changes, the neural network connecting the brain to the limbs is destroyed, and the transmission of bioelectrical signals is naturally interrupted.

It's like a highway is cut off and can't be opened to traffic.

And our set of bioelectrical signal control technology is to use bioelectrical signal sensors to detect and capture these blocked bioelectrical signals on the spine and near the brain of the lesion, that is, the upper end of the injured or lesion. .

These bioelectrical signals are then identified and converted into system control programs to control various parts of our medical intelligent mechanical exoskeleton. The bioelectrical signals originally transmitted to the lower limbs act on the medical intelligent mechanical exoskeleton to replace the lower limbs. sports.

The medical intelligent mechanical exoskeleton will act on its bound lower limbs, thereby driving the lower limbs to follow the movement.

In this way, we can use this medical intelligent mechanical exoskeleton system to allow our paralyzed patients to stand up again, restore normal walking functions, and even run and jump functions. "

clap clap clap...

The audience applauded for a long time. Originally thought that this was just Wu Hao talking big, but they didn't expect to hear this explanation, so they could really do it, which made everyone excited.

As for Wu Hao, he also showed a smile when he saw this, then eased his tone and continued: "As for me, I just gave you a brief introduction in the simplest and most understandable language.

In fact, this medical intelligent mechanical exoskeleton system is very complicated, far more complicated than what I have introduced.

For example, how to capture the motion bioelectrical signals in the spinal neural network, how to identify and interpret them, and how to convert them.

Secondly, there is the corresponding speed of the entire recognition. Our human body transmits this bioelectrical signal very quickly, and we can basically perform body movements whenever we want, which has become the potential motor instinct of our human body.

And our system needs to capture and identify, convert and transmit, and then move to equipment. No matter how we reduce the delay, it is definitely not as fast as the human body.

But for the convenience of movement and a better experience for our wearers, we must minimize the delay.

And we are currently,

The time delay of the equipment has also reached a limit that the current technology can achieve.

Our wearers will definitely have some difficulties in wearing it at the beginning, and the delay will be relatively high. This is because many paralyzed patients have suffered from paralysis for a long time and part of their motor nerves has degenerated, so a long adaptation period is required.

After a period of acclimatization and training, our wearers can do some normal walking, trotting and some less strenuous exercise.

Basically, it can restore more than 70% of normal people's exercise capacity, which is enough to cope with basic life.

Next, there are paralyzed patients caused by brain diseases. These paralyzed patients must not be able to use this spinal nerve motion bioelectrical signal capture and control technology.

So we have to change a control method, especially for some high paraplegia patients, so this control method must be easy enough and simple enough, so that it is suitable for this part of patients.

After trying many methods and technologies, we finally set our sights on the field of consciousness control technology.

The so-called consciousness control technology is actually familiar to everyone, and it has been performed in many film and television dramas.

In reality, consciousness control technology has also been applied to practice. For example, our national team studies the use of consciousness control technology to type, and the speed can reach more than 100 words per minute, which is very fast.

Some scientific research teams also focus on these paralyzed patients, and use consciousness control technology to control the movement of electric wheelchairs to serve these paralyzed patients.

And this time, we will also use consciousness control technology to control our medical intelligent mechanical exoskeleton.

This kind of consciousness control technology is more direct, and our brain directly gives orders to the medical intelligent mechanical exoskeleton.

But in fact, it is not easy to realize it. How to capture our thinking consciousness has already had certain research results in this area.

That is to use the brain waves released by our brains when we humans are thinking to identify and learn the thinking content of our brains.

However, our human brain is very active, and it is basically working all the time when you are awake, and various thoughts and ideas emerge in an endless stream.

It is very difficult to filter out these messy thoughts and let the equipment system extract and identify relevant control commands.

The demonstrations of these mind control technologies that we have seen so far are actually professionals who have undergone special training or training. Our professionals must be highly focused and must not have other distracting thoughts or messy thoughts.

In this way, these ritual control systems can accurately recognize the thoughts of our brains and make corresponding actions.

We ordinary people definitely can't do this, let alone such a high degree of concentration, especially for older people.

In addition, our usual movements are all subconscious. But now we need to concentrate on controlling the movement, which is very troublesome, and the experience is also very bad.

There may be a slight interruption from the outside world, and your thoughts will fly a little, then the movement may be interrupted or the wrong command may appear.

Therefore, we have to think of a way to allow our patients to subconsciously control the movement of the medical intelligent mechanical exoskeleton, and to think about other things.

And right here, our scientific research work has reached a deadlock, and we can't find a clue for a while. "

Having said this, Wu Hao paused for a moment, looked at the fascinated guests, smiled slightly and continued to talk.

So we decided to change our thinking, show ourselves to be empty, and then invite experts and professors in related fields to have a joint discussion, so as to find the ray of light to solve the problem.

In the end, under the advice of relevant experts, we suddenly reacted. From the beginning to the end, we forgot one of the areas we are best at, and that is artificial intelligence technology.

For a long time, we have been hoping and working to directly control the medical intelligent mechanical exoskeleton with our thinking consciousness.

Now that this aspect is in trouble, can we change our thinking? Use consciousness control technology to control the artificial intelligence system, and then use the artificial intelligence system to control the medical intelligent mechanical exoskeleton.

In this way, our thinking can be less involved in the control of the medical intelligent mechanical exoskeleton. We only need to issue some instructions at any time, and the artificial intelligence system can move independently, which can liberate the brain and thinking of our patients. .

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