Military Technology
Vol 2 Chapter 788: Miniature multi-tentacle medical surgical robot
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After a brief introduction video, Wu Hao took a sip of water and took a short break. Wu Hao then said: "The main thing I introduced above is the application of this hexagonal honeycomb compound eyeglasses to civilian digital products. In fact, its use The field is very broad.
For example, our common astronomical telescopes, especially optical imaging telescopes, are limited by the size of the lens. At present, it is difficult for us to continue to expand them.
Now, with this technology, we can assemble countless hexahedral lenses into a larger lens according to the honeycomb structure, so as to obtain astronomical images with better imaging quality, which is very helpful for us to study deep space.
Secondly, the hexagonal honeycomb compound lens can also be applied to the field of observation, so as to obtain a clearer microscopic image. "
"This is just a routine application, we can also achieve a synthetic hexagonal honeycomb compound lens with multiple imaging functions.
For example, we add infrared, thermal imaging and other functions to the hexagonal honeycomb compound eyeglasses, which are used in some complex and special fields.
In addition, the compound lens has a natural advantage, that is, it has a strong depth of field effect.
This means that it can be applied to more areas of detection, such as the optical sensor on the robot, which is our eyes.
This powerful depth-of-field effect can also be used for shooting 3D movies and TV shows, and the rendered 3D stereoscopic effect is no worse than current 3D cameras.
In the future, we will also continue to strengthen the in-depth research on this hexagonal honeycomb compound lens technology. I believe there will be more amazing results gradually displayed in front of everyone, let us look forward to it. "
Speaking of this, Wu Haochang breathed a sigh of relief, then smiled again: "This is our hexagonal honeycomb compound lens technology, thank you all!"
After an electronically synthesized applause, the scene began to change. This time the space became white, a huge white space with a sense of future technology.
Wu Hao reappeared at the scene, still sitting in the red chair.
As we all know, in the field of medical technology, our company has invested a lot of resources and obtained a number of fruitful technical achievements.
As we all know is our intelligent bionic electronic prosthesis, through this technological achievement, we have allowed thousands of disabled people to resume normal life.
I am very proud of this, and it is something that our company colleagues have always been proud of.
We are really happy to see so many smiles on the faces of disabled people who have returned to normal life. This kind of gain cannot be earned no matter how much money is made.
Therefore, we have increased our investment in medical technology. Although the investment in this area is huge, we are still working hard to persist.
We are lucky to be rewarded by heaven. Just a short time ago, we had another technical achievement. I can’t wait to share it with everyone.
This technology is called a miniature multi-touch medical surgical robot.
Wu Hao's words fell and saw a floating octopus appear in the white space. This white octopus began to swim in the air, and then slowly suspended in front of Wu Hao, and became a mechanical octopus.
After we developed the intelligent robotic arm, we conducted in-depth research on this technology, hoping to make a breakthrough in this technology and apply it to more fields and help more people.
This miniature multi-touch medical surgical robot is the latest type of medical surgical robot developed by us based on the physical characteristics of octopus based on the intelligent mechanical arm technology.
We all know that the trauma of surgical operations is generally very large. For this reason, we invented minimally invasive surgery, but in fact minimally invasive surgery is also very trauma, generally requires three windows to achieve minimally invasive surgery.
And there are some surgeries that cannot be minimally invasive and require surgery. This is because minimally invasive surgery is limited to instruments, and there are many conditions that cannot be adapted.
Therefore, after in-depth discussion and research with many surgical experts, our research team decided to develop a miniature multi-touch medical surgical robot that can replace the current minimally invasive devices.
To develop such a miniature multi-touch medical surgical robot, many problems must be solved.
The first one is small. The size of this miniature multi-touch medical surgical robot must be small enough. Only small can leave the patient with the smallest wound as possible during the operation, which is conducive to later recovery and the pain caused to the patient. It is also the smallest, and it is not easy to scar.
Therefore, we need to reduce this miniature multi-touch medical surgical robot as much as possible. After repeated research, we felt that the body structure of the octopus was the most suitable, so we conducted relevant observation and research, and assisted in bionic design.
The tentacles of octopus are very flexible, and our robot also needs to be as flexible as possible during the surgery to adapt to different complex diseases~www.readwn.com~ So we must re-equip the intelligent robotic arm, not just to change it The volume is reduced, and it is flexible enough.
It seems to be very simple, it only needs to be scaled down, but it is actually very difficult. The original structure is difficult to shrink, which requires a new design, which also brings many difficulties.
In the end, we successfully reduced the intelligent robotic arm to 43 mm, 3.5 mm in diameter. On such a miniature intelligent mechanical arm, we have set up five joints in total, which is very flexible.
Then, we have installed these tiny tentacles on a terminal with a diameter of 17MM, which is regarded as the "octopus head".
In this "octopus head", we equipped a total of four pairs of eight tentacles, which really became an octopus.
At the end of the terminal, it is connected to this 15MM pipeline.
Through this pipeline, we can connect with our control equipment.
As for controlling the device, it is also very simple. We use our smart VR system to get a very clear view through the micro HD camera in the middle of the tentacle.
Then through the intelligent induction gloves, we can control these mechanical tentacles very flexibly and perform related operations.
And through our intelligent voice assistant, a doctor can control all tentacles and then perform a complex surgical operation.
In addition, the four pairs of eight tentacles can also be controlled by four people separately to facilitate some very complicated operations.
And through our intelligent voice assistant, a doctor can control all tentacles and then perform a complex surgical operation.
In addition, the four pairs of eight tentacles can also be controlled by four people separately to facilitate some very complicated operations.
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