New in the world of technology

New in the world of technology

New in the world of technology: you should know

The future arrives before what you think. These emerging technologies will change our way of life, how we care for our bodies and help us avoid climate disasters. Like it or not, technology is quickly improving, offering innovations and revolutionary projects every year. Some of the net spirits are there, creating the next future technology that will completely change the way we live our lives. It may seem that scientific progress is stable, but we have experienced a period of immense technological improvement during the last half-century.

There are innovations at this time that are started directly from the pages of science fiction. Whether they are robots that can read spirits, which can create images for themselves, holograms, bionic eyes, or other impressive technology, there is much to expect from the world of future technology. Next, we have chosen some of the greatest and most interesting ideas.

Sand batteries

All technologies that improve our future should not be complicated. Some are simple but extremely effective. One of these types of technology comes from certain Finnish engineers who have found a way to transform the sand into a giant battery. These engineers stacked 100 tons of sand in a 4 x 7-meter steel container. All this sand was heated with wind and solar energy. A local energy company can distribute this heat to provide heat to the buildings in neighboring areas. Energy can be stored in this way for long periods. All this happens through a concept called resistive warming. It is where the friction of electric currents heats a material. The sand and any other conductor that is not super superior are heated by the electricity that crosses them from the heat generated by what can be used for energy.

Submarine gloves

Many technological developments come from the copy of animal attributes, and “octa gloves” are no exception. Virginia Tech researchers have created underwater gloves that mimic the suction capabilities of an octopus for a human hand. The team behind these gloves reinvented the way the fools of an octopus work. This design was created to fulfill the same function as these Dragons, activating a fixation with light pressure objects. Thanks to the use of these drafts and a microcaps table, gloves in gloves are capable of hardening and loosening to grab underwater objects without applying a crushing force. It could be used in the future for rescue divers, submarine archaeologists, bridge engineers, rescue equipment, and other similar areas.

Brain reading robots

The more a science fiction trope, the use of brain reading technology has improved considerably in recent years. Until now, one of the most interesting and practical uses we have seen in the researchers of the Swiss Federal Institute in Lausanne (EPFL). Thanks to an automatic learning algorithm, a robot arm, and a brain-compliment interface, these researchers have created a medium for petra plant patients. In the tests, the robot arm would perform simple tasks such as moving around an obstacle.

Then, the algorithm would interpret the brain signs using an EEG lid and automatically determine when the arm had made a movement that the brain considered incorrect, for example, driving too close to the barrier or moving too fast. Over time, the algorithm can adapt to the preferences of individuals and brain signals. In the future, this could lead to wheelchairs controlled by the brain or assistance machines for patients with tetraplegia.

3D printed bone

3D impression is an industry that promises everything, from the construction of cheap houses to a affordable robust armor, but one of the most interesting uses of technology is the construction of 3D printed bone. Ossiform Company specializes in medical 3D printing, creating specific replacements for the patient of different trical phosphate bones, a material with properties similar to human bones. The use of these 3D printed bones is surprisingly easy. A hospital can perform a magnetic resonance that is then sent to Ossifor that creates a specific implant model for the necessary patient. The surgeon accepts the design, then once printed, it can be used in surgery.

What is special in these 3D -printed bones is that, due to the use of tricalic phosphate, the body will remodel the implants in the vascularized bone. This means that they will allow the complete restoration of the function of the bone that replaces. To obtain the best possible integration, the implants are of a porous structure and have large pores and channels for which the cells can fix and reform the bones.

Also Read: How technology could change the world

Realistic holographies

Holograms have been filling science fiction books, films and culture for years, and although there is something difficult to achieve, especially on a large scale. Developed by researchers from the University of Cambridge and Disney Research, Holobricks is a way to cut several holograms to produce a large transparent 3D image. The problem with most holographies at this time is the amount of data they have to do, especially when they are done on a large scale. An ordinary HD screen for a 2D image takes approximately 3 GB per second to generate. A hologram of a similar size and resolution would be closer to 3 TB per second, which is a large amount of data.

To combat this, Holobricks would provide individual sections of a large holographic image, strongly reducing the amount of data required. This could lead to the use of holograms in the entertainment of daily consumption, such as movies, games and digital screens.

Clothes you can listen to

Portable technology has leaps over the years, adding new features to the accessories and clothing we wear day by day. A promising route is to give ears of clothes, or at least to the same capacity as an ear. MIT researchers have created a fabric capable of detecting heart rate, hand cleaning or even very light sounds. The equipment suggested that this could be used for blind technology, use in buildings to detect cracks or strains, or even woven in fish networks to detect the sound of fish. At the moment, the material used is thick and a work in progress, but they hope to implement it for the use of consumers in the coming years.

Dairy products manufactured in the laboratory

Have you heard of cells cultivated by “meat” and Wagyu fillets by cells in a laboratory, but what about other animal foods? A growing number of biotechnology companies worldwide investigates dairy products manufactured in the laboratory, such as milk, ice, cheese and eggs. And more than one thinks they broke it. The dairy industry is not respectful of the environment, not even close. It is responsible for 4% of the world’s carbon emissions, rather than an airplane and the combined expedition, and the demand increases so that a greener splash pours our tea cups and our cereal bowls.

Compared to meat, milk is not so difficult to create in a laboratory. Instead of growing it from stem cells, most researchers try to produce it in a fermentation process, seeking to produce milk and casein proteins. Some products are already in the United States market, companies such as Perfect Day, with continuous work on the reproduction of mouth sensation and the nutritional advantages of ordinary cow’s milk.
Beyond that, researchers work at the Mozzarella produced in the laboratory that perfectly combines a pizza, as well as in other cheese and ice cream.

References:

sciencefocus.com


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