Military Technology

Chapter 1603 No real object, no truth

In the end, with such an answer that "TCM" was useless, the entire press conference came to a successful conclusion. These reporters have also got the content they want, and now they are all rushing to publish their reports.

As for Wu Hao, he also breathed a sigh of relief after finishing the press conference. Facing so many tough questions from so many reporters was a huge drain on his physical strength and energy.

These media reporters did not leave, but poured into the exhibition hall on the second floor of Tianshu Activity Center to visit a series of medical technology achievements displayed at this conference.

First of all, for all media reporters, what they are most concerned about is of course the intelligent bionic artificial heart. In the middle of the exhibition hall, there is a transparent glass cylindrical container. Inside the container is a human blood vessel network model that simulates all the blood vessel systems of the human body.

At the heart of this human blood vessel network model, an intelligent bionic artificial heart is installed. The outer material of this smart bionic artificial heart is similar to a carbon fiber material with some metallic luster, but it is not just like a carbon fiber material because the surface is also covered by a layer of mesh.

The overall shape is similar to that of a heart. Of course, there are differences, and its mechanical structure can be seen. Of course, the biggest difference comes from its four heart chambers, namely the left and right ventricles and atria, which are distributed symmetrically on both sides of the intelligent bionic artificial heart.

Unlike a real heart, the entire intelligent bionic artificial heart does not directly contract and relax. Instead, four cardiac chamber modules participate in the contraction and relaxation process.

Therefore, media reporters can see that there are four bulging masses on both sides of this intelligent bionic artificial heart. These four bulging masses are contracting and relaxing regularly.

This also causes the blue liquid in the entire simulated blood vessel network model to continuously flow based on the contraction and relaxation of the four heart chambers of the intelligent bionic artificial heart.

Moreover, the contraction and relaxation process of the four heart chambers is not an immutable rule, but presents a simple way to show the operation of this intelligent bionic artificial heart in different states.

For example, when the sleep state is displayed, the four chambers of this intelligent bionic artificial heart contract very slowly and calmly. When displaying the motion status, the four chambers of this intelligent bionic artificial heart contract slowly and violently, and the simulated blue liquid flows very quickly.

It's beautiful!

The media reporters stood around this cylindrical container, looking at it with fascination, and they kept sighing. After reacting, these media reporters seemed to be going crazy and started taking pictures crazily at the physical display model inside the container.

In addition to this physical display model, Wu Hao and the others also showed two macaques that had participated in heart transplant surgery experiments and were implanted with intelligent bionic artificial hearts. These two macaques were locked in a transparent glass room. Facing so many media reporters and cameras, they seemed a little panicked and scared.

However, after being given fruits to eat, the two experimental macaques jumped around and became active again.

On the large screen outside, the real-time working data of the intelligent bionic artificial hearts in the two macaques are displayed at all times. In addition, the large screen next to it also showed the images of the two macaques undergoing surgery and their subsequent recovery process. It also showed the beating images of the intelligent bionic artificial heart in the macaques under X-ray and B-ultrasound.

In order to show the authenticity to these media reporters, there were scientific researchers on site and directly pushed a piece of equipment into the room. Then he waved, and the macaque quickly jumped onto a small treatment bed. One of the two researchers comforted the macaque, while the other started to explore the macaque's chest with a B-ultrasound instrument.

Through the large screen outside, media reporters could more realistically see the beating of this intelligent bionic artificial heart in the macaque's body.

This also made these media reporters extremely excited, and then they started shooting wildly at these images. And they also got even more exciting news. That is, the patient who participated in the first clinical trial of an intelligent bionic artificial heart has arrived at the company campus and is now in the laboratory. Later, they will lead these media reporters to meet the patient and arrange relevant interviews.

Although everyone can't wait, what they have to do now is to record as much as possible the series of technical achievements displayed here.

Next is the smart bionic electronic prosthetic eye, but compared to the real-person display at the press conference, the physical display seen here did not surprise everyone.

Because in everyone's eyes, this smart bionic electronic prosthetic eye looks no different from an ordinary prosthetic eyeball.

If there is a difference, it is the excuse behind the eyeballs and the much-talked-about brain-computer interaction chip under the eyes.

The size of this fundus brain-computer interaction chip is not large, which is the size of the tip of an adult's little finger. It is not just an ordinary chip, but a sophisticated structure composed of chips and brain-computer sensors.

This also makes it look like an octopus, because it has many tentacles of transparent light-like material on its back, and there is a small round cap on the top of the tentacles, emitting a faint light. This is the connection interface of the brain-computer interaction system that connects the cranial nerves. Only through these tiny tentacles can it be connected to the optic nerve behind the fundus of the eye, thereby interactively transmitting bioelectrical signals.

On the display stand on one side, there is an intelligent robotic arm. Two intelligent bionic electronic prosthetic eyes are installed on the top of this robotic arm. With a special design, it looks very cute and adorable, just like this intelligent machine. The arms are as long as two life-size eyes.

Through the face recognition system, the pair of intelligent bionic electronic prosthetic eyes on this intelligent robotic arm are always turning to look at every visitor who comes to the platform.

Next to the platform, a large high-definition screen hangs. The picture displayed on the big screen is exactly the picture captured by this pair of intelligent bionic electronic prosthetic eyes.

This also allowed many media reporters to truly see for the first time what this intelligent bionic electronic prosthetic eye can see.

According to media reporters, the picture quality captured by this pair of intelligent bionic electronic prosthetic eyes is actually not high. Compared with some professional SLR equipment with high pixels, the picture quality is still relatively poor.

Next to the platform, a large high-definition screen hangs. The picture displayed on the big screen is exactly the picture captured by this pair of intelligent bionic electronic prosthetic eyes.

This also allowed many media reporters to truly see for the first time what this intelligent bionic electronic prosthetic eye can see.

According to media reporters, the picture quality captured by this pair of intelligent bionic electronic prosthetic eyes is actually not high. Compared with some professional SLR equipment with high pixels, the picture quality is still relatively poor.