The times are progressing. Smart phones, robots, e-commerce and so on, what we thought was impossible before, all realized today, all become reality. No one can imagine that today's prosperous Internet will lead the trend of technology, so do you know what are the cutting-edge technology of the future technology?
Top Ten Cutting-Edge Technologies of the Future
First, Mind-Reading Technology
Currently, the technology allows for the implantation of a chip into the brains of stroke-paralyzed patients and connects the chip to a laptop computer. These patients will eventually learn how to use their minds to edit e-mail, play video games and surf the Web.
Kay is compiling a dictionary of thoughts. He has developed a computer program that can decode brainwave signals. He said: "It will be possible to recognize from a large number of images a specific image seen by a patient that can be recovered simply by detecting activity in his brain." Japan's Honda once made a robot in which employees wearing helmets could control the robot's activities through their minds.
Second, technology to attack cancer
Today, when one finds a tumor in the chest, it may have 10 billion cancer cells. But in the future, the proteins released by just a few hundred cancer cells could be identified by a DNA chip installed in a toilet, which would advance the discovery of tumors by 10 years. From then on, the word "tumor" will disappear from the world.
The way people are examined will also change. In June 2018, Sally took out a small device, pressed it to her finger, and took a small drop of blood," Holder wrote. With that single drop of blood, 2,000 different tests can be performed, and the data can be sent wirelessly to a remote computer for analysis... The miniature device will test thousands of blood components, and a DNA sequencer will be able to quickly decipher an individual's genome."
In addition, scientists have developed "nanoparticles," which are microscopic molecules. These molecules can destroy cancer cells like a smart bomb. In past experiments, 90 percent of cancer cells were killed in this way, which would make a fundamental change in cancer treatment.
Third, anti-aging technology
Although no one has been able to find an immortality drug, scientists can now analyze and sort out the process of cellular aging from a genetic and molecular perspective. Many genes that affect the rate of aging have been found in yeast cells, fruit flies and worms.
Scientists have extended the lifespan of insects, rats, rabbits, dogs, cats and monkeys through "calorie control". That is, if they were fed 30 percent less calorie intake, they could live 30 percent longer. Guarente's discovery of the SIR2 gene may explain the mystery of "calorie control.
Fourth, space elevator technology
Imagine walking into an elevator one day, hitting the up button, and you're in outer space. Wouldn't that be cool? This is the space elevator, which will fulfill the dream of opening up the universe to visitors.
Currently, it costs about 53,000 yuan to launch something weighing about 2.2kg into near-Earth orbit, but a space elevator could greatly reduce the cost and allow ordinary people to travel in space. The elevator's manned capsule could move over tens of millions of meters of cable, which is held in place by the centrifugal force generated by the Earth's rotation. The advent of carbon nanotubes is another step towards realizing this dream. Edwards has shown that nanotechnology can be used to create super-strong cables capable of supporting space elevators.
He said:
"Building a 200-tonne elevator is a sensible idea that makes commercial sense. A 200-ton space elevator is the size of a large commercial airplane. The size of an elevator in space is entirely up to us and is not limited by any physical dimension."
Fifth. Internet-ready contact lenstechnology
Can you imagine a day when surfing the web is as easy as blinking your eyes? A contact lens currently being researched by Prof. Parviz may just show you that anything is possible. This new contact lens has a series of light-emitting diodes arranged on it. These LED combinations can form various images in front of your eyes," says Parviz. The material of these glasses is mostly translucent and people can wear them freely."
The glasses would also recognize a person's facial features, display the life of the person they are looking at, and translate from one language to another so that people could read subtitles displayed on the lenses. Students who may be taking final exams will be the first customers for these contact lenses, which are sure to be a hit with sci-fi fans as well.
Sixth, the convergence of human and robotics
In years to come, robots may have the same intelligence as mice, cats, dogs and even monkeys. At the time, some people thought robots could be dangerous. Some suggested that we should implant chips in their "brains" so that they could be switched off if they got a bad idea. But others wondered why the different robots would merge. That's exactly what Brooks thinks. He heads MIT's artificial intelligence lab.
He says:
"Fifty years from now, we will be able to see fundamental changes in the human body through genetic modification. The human population will change in ways that people can't imagine today. We will find that we are no longer limited by Darwinian evolution. My prediction is that by 2100, our daily lives will be filled with intelligent robots from which humans will not be able to distinguish themselves. We will also be robots, interconnected with robots."
The upside of this is that one day you'll wake up and realize that your body is perfect:beautiful, super-strong, and immortal.
Seven: Shape-shifting technology
The movie "Terminator 2" or "X-Men" featured shape-shifting scenes, which was the dream of scientists working on "programmable matter". They have created an electronic brain chip as big as a pin cap, a kind of nanoscale microcomputer called "catoms". These computer chips are programmed to combine in different ways depending on a given electrical charge.
Campbell said, "For example, my cell phone is too big to fit in my pocket, but too small to hold in my hand. If I have as many (programmable) chips as 200 to 300 milliliters, then I can always make my phone the shape I want. This is going to be a very common technology for the next 40 years," said Intel senior researcher Justin Ratner. "Then come Christmas, all we need to do is download the software for our gifts and press a button and the gifts will appear.
Eighth, replicating brain technology
You don't need a magic bullet to live forever. It is feasible for futurists to scan the brain of a specific individual and replicate it in the digital world. When the original dies, a digital backup is opened to make it permanent in the virtual world.
Actually scanning a replicated brain is not at the conceptual level. Some related research is well underway, such as the research group of Prof. Ishiguro at Osaka University in Japan, which is working on making a robot a biological human replica.
Ninth, the human organ store technology
If you get into a car accident or suffer from a disease, you can order a spare organ cultivated from your own cells from a "human organ store".
Scientists can now grow cartilage, noses, ears, bones, skin, blood vessels and heart valves. Four years ago, they grew the first bladder, and last year, the first trachea. In the next five years or so, scientists will be able to grow livers. Dr. Atala said, "We can foresee a future where ready-made organs will be available. People will only need to remove damaged organs and then implant the cultivated new organ as needed."
Tenth. Artificial blood technology
Seeing the media's occasional "blood shortages" worries patients' families and makes it difficult for doctors. In the future, can there be artificial blood to solve the "blood shortage" problem? In addition, for people with rare blood types, artificial blood may also be an effective way to help them. Britain's National Health Service (NHS) announced on June 25, 2016, plans to start human clinical trials of artificial blood in 2017, which is the first time in the world.
The artificial blood to be tested in the U.K. this time is based on lab-cultured real red blood cells, according to New Scientist. Does the blood substitute work?Robert Lanza, chief scientific officer of Ocata Medical, thinks it should work.
He and his colleagues first cultured red blood cells on a large scale in a lab in 2008, and in 2011 Luc Duet's team at the University of Paris VI used them to perform the first mini-transfusion of blood in a human volunteer.