Technology continues to develop and change our lives. Things that we thought might exist in sci-fi movies until recently are now part of everyday life, and even places like https://vulkanvegas.com/de they are influenced. Now there are new ways to play! We’ve rounded up the latest news in the tech world to give you an idea of both current developments and what’s in store for us next.
X-ray glasses are now real
X-ray glasses have long been a joke, but now we can stop laughing. MIT researchers made them a reality. No, they do not show what is under the clothes. However, they make finding objects much easier and make things more convenient for employees. This technology allows you to find/see objects with an RFID tag and works with radio frequency (RF) signals. In fact, its operation is quite simple: the user wears AR (Augmented Reality) glasses, and the screen of this device can show all kinds of objects that send RFID signals. For example, suppose an employee is looking for a specific item in a giant warehouse to fill an e-commerce order. When they put these glasses on, they can see where the item is (even if it’s hidden in boxes).
This may not sound very impressive, but remember that this technology covers everything if you have an RFID tag. For example, it may be possible to view the plumbing in a building in this way. You can detect where the pipes are without breaking the walls. Since RFID tags are smaller than postage stamps, they can be placed on everything and make life easier for any type of employee.
Creation of nanowires with metal atoms
Tokyo Metropolitan University has recently succeeded in creating a nanowire by placing indium metal atoms on nanofibers. If you are not familiar with these technologies, this will not mean much, so let’s try to explain it simply:
- You can think of nanofibers like any other fiber. The only difference is that they are very, very small.
- The University of Tokyo managed to create a wire by adding metal atoms to these fibers. Think of this as a very, very small (microscopic) wire.
- What can you do with a microscopic metal wire? The answer to this question shows why this is a very impressive technological development.
You can make much more powerful nanoprocessors than we currently use with nanowires. Depending on the metal used, these wires can take on superconducting properties, creating a new branch of science called “nanocircuits.” We are talking about electronic circuits that you can only see under an electron microscope. You can put the power of a supercomputer in a device the size of a smartwatch. Electronic devices will be smaller and lighter, but much more powerful. It is easy to guess the great potential that such a development brings.
Exoskeletons replace wheelchairs
The exoskeletons were a technology tested by armies but research has been on for a while to be used in daily life. Some of them are for warehouse employees and others for disabled people. Warehouse exoskeletons are still a prototype, but those for disabled people have become a purchasable reality. A Catalan company called ABLE is preparing to launch them in the summer of 2023 with a price of 40,000 to 60,000 euros. There are already disabled people who are using it and no longer need wheelchairs. The device allows them to move independently and walk. At this year’s Mobile World Congress, a disabled person wearing the Able exoskeleton played table tennis against the King of Spain. Even this shows what this device can do. In a very short time, there may be no need for wheelchairs because chairs with advanced features are already being sold at this price.
6G technology is already planned
If you started using 5G and are affected by its speed, you might be surprised to learn that it will feel like a dial-up connection in a few years. 6G technology is already planned and is expected to be 500 times faster than 5G. This means “zero latency”: a device at one end of the world can communicate with another device at the other end without delay and will do so 500 times faster than now.
But there is a problem: right now we don’t have any cable technology withstand such speed. Even fiber cables are insufficient. For this reason, it is planned to use “space” instead of cables. Several satellites to be placed in close orbit through the European Space Agency are expected to form the basis of the 6G infrastructure. There are already researchers who say that existing security systems are inadequate for such speed and that we should develop new systems. They propose to use artificial intelligence to ensure the security of 6G, and they may be right. Nothing else can work that fast!
