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According to foreign media reports, sci-fi film and television works are filled with various subjects that give the human body super mechanical capabilities. Scientists now have the skills and capabilities to turn this science fiction story into reality. Institutional experts such as the Future Intelligence Institute in Seattle, United Kingdom and the Institute for the Future of Humanity at Oxford University in the United Kingdom believe that it is possible to build real people into "invincible diamonds."
In the classic TV series "Invincible King Kong" of the 1970s, male lead Steve Austin was an astronaut who was seriously injured in a test flight accident. In the "almost dead" case, science and technology saved him. "We can remake him. We have this technology. We have the ability to make him the first bionic person in the world. Austin is such a person. He is stronger, stronger and faster than he was." Austin's body A range of upgrades are accepted: Eyes have zooming capabilities and infrared vision, bionic leg running faster than cars, and arm strength greater than bulldozers.
Today, the role of bionics in the real world is revolutionary. The artificial heart implanted in the chest allows the patient to survive, the cochlear implant allows the patient to recover hearing, the bionic eye allows the patient to see the light again, and the prosthetic arm can help the patient to recover. The focus of these bionic transformations is to let patients survive or recover lost functions. However, is it possible to use the bionics principle to allow people to have additional functions? Can bionics make real people become Steve Austin in "Invincible King Kong"?
Richard, visionary analyst, future intelligence agency, Seattle, USA. Yang Ke thinks, “First of all, this requires more than US$6 million in research funding. However, there are now many technologies that can achieve this goal very closely. I can say with certainty that over time, the bionic person The robot arm can have the same strength as Austin. His bionic eyesight can be achieved through contact lenses, and the retina transplant technology is constantly developing. I believe that these technologies will certainly continue to improve and achieve more functions."
So how do you achieve 100 kilometers per hour? Yang Ke expressed, "In terms of physical theory, this is certainly feasible. In practice, I am skeptical and may have great difficulties. Bipedal animals are not suitable for such speed running, but we can have There are more ways to achieve speeds of 100 kilometers per hour, and I am fully convinced that the vast increase in these capabilities in humans will not only be applicable to ordinary public life, but also certainly to the military. In the coming decades, humans will The power, endurance, and perception will certainly be significantly improved."
One of the major challenges facing humanity’s various capabilities is that the body itself is still very weak. In daily life, these enhanced functions can easily damage the body. It is possible to install a bionic arm sufficient to lift a car. However, if you really use this arm to lift the car, it may damage other parts of the body. Realizing a running speed of 100 kilometers per hour can also cause these problems.
At present, the body's bionic parts can simulate human functions. However, these technologies must be further improved in order to truly enter the era of functional enhancement. Dr. Anders Sandberg of the Institute of Human Futures at Oxford University in the United Kingdom stated, “I think it is possible to easily reshape the body and enhance its function to the level of the invincible King Kong.†Sandberg said that the human body Options for enhanced functionality include enhanced sensory performance, such as infrared or ultraviolet vision, and hearing enhancement. One day, when the blind person wears an artificial retina, he or she can not only have eyesight, but also has the ability to record, zoom and other functions like a smartphone.
Professor Neuer Shaker, a scientist at the University of Sheffield in the United Kingdom, is skeptical of the idea of ​​creating a live-action version of King Kong. "You already have good legs. I don't believe anyone would be willing to add other objects to the body." However, Professor Shaker believes that the human body can be enhanced by the bionic device "exoskeleton." Cyberdyne Corporation of Japan has developed a garment called "Hal" that resembles an exoskeleton. It can help people who have lost their motor function to recover their athletic ability. The main principle is to obtain the nerve electrical signals that are responsible for the transmission of physical motion information, and then translate it into the movement instructions of the clothing.
Another idea of ​​Professor Shaker is to use equipment that can be controlled by thinking, but this device is not part of the human body. He said, “If I really want a strong arm, but I don’t want it to be fixed on me. The best part is that it only stays with me at all times. I move it and it’s what I want. I think you should see this kind of thing in the future."
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