Implanted chips have been crazy humans can't stop
So you can put your hands in the subway gates, you can just buy your own cup of coffee just by putting your head close to the POS... Maybe you think that this idea is crazy enough, but some people don't think so. In their view, implanting the chip into the body is the ultimate goal of mobile intelligence, which is a great business.
Putting a small chip into the human body is no longer a fantasy in the movie. Now, with a wave of hands, you can lock the door, shake your head and drive the vehicle, shake hands to transfer files, and even cerebral palsy patients can normally cook their own lives. The police effortlessly find cool scenes such as kidnappers. They are all being turned into reality. Even if the human body is superimposed on the combination of electronic chips, it looks a bit avant-garde and somewhat crazy, but it won't take long, it will be as common as eating a meal or drinking saliva. Indeed, since we can put credit cards into mobile phones, why can't we bury the chips in our bodies?
Gradually move from the laboratory to the public
Electronic chip implantation technology has been in the medical world for decades. The skin is the natural protective layer of human beings. Usually people only consider implanting medical equipment when they have to, but with more and more "tech madmen" The emergence of this, the inherent concept was quietly broken.
In 1998, Kevin Warwick, a visiting professor at the University of Reading in the UK, used surgery to implant a wafer transponder into his left arm. In 2002, Warwick implanted a 3 mm wide square chip into the left wrist and connected 100 electrodes to connect his nervous system to the computer via a chip line.
With the "chip", Warwick is like a humanoid "electronic tag". As long as he enters and exits in the office building, all computer-controlled rooms can recognize him, automatically turn on the lights, open the door, and his The computer will also send out the greetings of "Good Morning, Professor Warwick" and inform him when he receives a new email... Warwick's experiment is puzzling: With the rapid development of science and technology, the future of human body planting How many possibilities can you release after entering the chip?
Compared with products that used to be smaller-scale experiments in the past, implanted chips in the past few years have really become popular. Prices range from large to small, from no power supply to carrying power, from passive reception of signals to active detection and transmission of signals.
At the end of 2014, Raymond Macquarie, with multiple auras of scientists, engineers, entrepreneurs, and super geeks, made a bold decision: implant a tiny chip capsule in the position of the tiger's mouth in his left hand.
"I just bleed a little bit of blood," Macquarie said. This is just a minor operation - the doctor sends a chip capsule of 2 mm in diameter and 12 mm in length to the mouth of Macquarie through the probe. “The whole process is like a bee stinging when I was a child. After the implant is completed, there will be a rice-sized bulge in the place where the chip is located, but there is no more pain.â€
The risk of implanting a chip on the human body is still unresolved. But as a front-line figure in the field of biotechnology, Macquarie did not hesitate. In his view, this will be the general trend. It is worth mentioning that the price of this chip capsule has been relatively close to the people, even if it is not yet in mass production, it only costs $99.
Implantation of the chip triggers infinite imagination
In many novels or movies, the chip implanted in the human body is "powerful", which can control diseases, prolong life, control weapons, and even manipulate thoughts. So, what role does Macquarie's chip capsule play?
It turns out that this chip can store data and also supports wireless transmission of NFC (Near Field Communication Technology). Just swipe your phone and gently scan the information stored in the chip, or save new information. In the "life cycle" of the entire chip, the write operation can exceed 100,000 times, and the storage capacity is as high as 1G, so there is no need to worry about the trouble of replacing it after a while. Now, Macquarie has put his business card information on the chip, and his house door is also equipped with NFC devices. When he got home, he didn't need a key at all. Just use his left hand on the doorknob and then twist it to open the door.
Of course, storing and transmitting information is only the first step. In Macquarie's vision, future implanted chips can add more functions to repair or even strengthen the human body. For example, add a sensor on the chip to sense the state of various organs of the human body. Once someone overeats, the chip automatically senses through the sensor, and then sends a signal to the phone, the phone will have a corresponding reminder. If the implanted chip can sense the abnormal indicators of the body, it can remind people to take medicine, or suggest to go to the hospital for a thorough examination. Previously, electronic bioengineer Brian McCoy had added the navigator to the chip and implanted his skin. Then, as soon as he faced the north, the chip would slightly stimulate the skin and let him know the direction.
In the more distant future, implanting chips may give humans the ability to go beyond ordinary people—by stimulating specific cells, allowing the corresponding neural signals to pass between the brain and the organs, thereby changing human capabilities or behavior. A biomaniac named Richie Lee once implanted a chip with a tiny wireless system into his ear. His idea is to use the ear to "hear" the signal from the ultrasonic range finder or thermometer, that is, to "hear" the distance of the obstacle ahead and the temperature of the outside world. This is undoubtedly a gospel for those who cannot see.
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