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Future technology: 22 ideas about to change our world

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The future is on the way and it’s coming sooner than you imagine. The technologies that are emerging will alter our lifestyle, how we care for our bodies, and help us to avoid the possibility of a catastrophe caused by climate change.

If you’re a fan or it is, technology is constantly progressing, and bringing forth new innovations and groundbreaking projects each year. The most most brilliant minds are currently working on the next piece of technology that will revolutionize the way we live. It’s possible to feel as if technology is advancing at a steady pace, but we’ve been through the most incredible technological advancement in the past half century.

There are developments taking place right now that seem straight out of the pages of science fiction. It could be robots that are able to read minds and AI that make images from their own or holograms, bionic eyes and many other mind-blowing innovations There is plenty to look forward to from the future of technology. Below, we’ve compiled a list of some of the largest and most fascinating concepts.

Sand batteries

The technology that is shaping our future must be complex, but some are very simple and efficient.

One of these technology has been developed by Finnish researchers who discovered an approach to transform the sand into a massive battery.

The engineers loaded the 100 tonnes of sand in the 4×7 metre steel container. The sand was then heated using solar and wind power.

The warmth is distributed by local energy companies to warm the buildings located nearby. Energy can be stored in this method for extended intervals.

This is all accomplished by means of a process called resistive heating. This is when a material is heated through friction of currents of electricity.

Sand, as well as any other non-super conductors are warm due to the electricity that passes through them. This heat can be utilized for energy.

Underwater gloves

A lot of the technological advances are based on copying traits of animals. The “octa glove” is no one of them.

Researchers from Virginia Tech have created underwater gloves that mimic the suction powers of an octopus human hand.

The group behind these gloves has re-imagined the way octopus suckers function. This design was developed to serve the same purpose like suckers and activate the attachment of objects by applying the slightest pressure.

By using these suckers as well as various micro-sensors, the fingers’ suckers can tighten and loosen in order to hold objects in water without the need for crushing.

It may be useful in the near future by rescue divers underwater archaeologists and engineers for bridges, salvage teams and many other fields similar to this.

Xenotransplantation

The idea of inserting the pig’s heart into the human is like a terrible idea, but it’s one of the most recent medical procedures that are making rapid advancement.

Xenotransplantation is the process of transplanting, implanting or the process of transferring human tissues, organs, or cells from animals – is a possibility to revolutionize the field of surgery.

The most popular methods used so far is the insemination of heart of a pig into a human. This procedure has already been successfully completed twice. But one patient was alive only for a couple of months and the other is being monitored.

When these procedures are performed the heart isn’t immediately transformed into a person, so gene editing is required first. Certain genes have to be eliminated from the heart, and human genes have to be added, mostly around the immune system and genes that hinder the excessive growth of the heart’s tissue.

At present, these procedures are risky, and there’s no guarantee of success. In coming years, it is possible that we might witness xenotransplants occurring regularly by donating hearts or tissues from animals to human who need it.

AI image generation

As artificial intelligence continues accomplish tasks just as like humans, there’s another industry to add to the list of possibilities – the realm of art. Researchers from OpenAI, a company OpenAI have developed a program which can create images using just words.

Enter ‘a dog in an oversized cowboy hat, singing through the rain’ and you’ll receive an array of totally original photos that match the description. You can also choose the type of art you wish to request will appear in. But it’s not yet perfected and isn’t without its flaws, such as when we gave poor guidelines for designing cartoon characters.

This technology is known as Dall-E is in its second version and the team behind it intends to keep developing it. In the near future we may utilize this technology to make art exhibits that allow companies to obtain fast, original artwork and, in the end, to transform how we make memes online.

Robots reading brains

It’s no longer a science-fiction idea, the use of technology to read brains has greatly improved in recent years. A few of the more fascinating and practical applications we’ve to date comes from scientists working at EPFL. Swiss Federal Institute of Technology Lausanne (EPFL).

Through a machine-learning program along with a robot arm as well as an interface for the brain These researchers have been able to design a way for patients with tetraplegia (those who are unable to move their lower or upper body) to connect in the real world.

In the course of testing, the robot arm could perform tasks such as moving across obstacles. The algorithm would interpret signals coming from the brain via an EEG cap, and then automatically decide whether the robot performed a movement which the brain deemed to be not correct, for instance, getting too close to an object or speeding up.

The algorithm over time will adapt to the individual’s desires and signals from the brain. In the future , this may result in wheelchairs controlled by brain signals or assistive machines for patients with tetraplegia.

3D printed bones

3D printing is a growing business that promises everything from low-cost home construction to tough armour. However, one of the biggest and most fascinating applications of the technology is the creation from 3D-printed bones.

The Ossiform company Ossiform is a specialist in medical 3D printing. They design custom-designed replacements for different bones made of tricalcium phosphate, one of the materials that has similar characteristics to human bones.

The process of printing 3D-printed bones is quite simple. A hospital could conduct an MRI which is then transmitted to Ossiform who will create an 3D rendering of the particular patient implant required. The surgeon approves the design , and after the model is printed, it is used during surgery.

What’s special concerning these 3D-printed bones is that , due to the tricalcium phosphate the body will transform the implants into blood-rich bone. This means that they can allow the complete restoration of the function of the bone it’s replacing was able to provide. For the greatest integration, the implants have porous structures and come with large pores as well as canals that allow cells to join and restructure bone.

Realistic Holographs

Holograms have been appearing in movies, science fiction novels and popular culture for many years and, although it is true that they exist, it’s still challenging to attain particularly on a large scale. But, one technology that may change the way we think about holobricks.

Created by researchers from researchers from the University of Cambridge and Disney Research Holobricks were developed by researchers from the University of Oxford and Disney Research. They’ technique of connecting multiple holograms into an impressive seamless 3D image.

The main issue with holographs present is the volume of data they need to create, particularly when used on a huge scale. A typical HD display that displays the same 2D image can take around 3GB of data per second to create. A hologram that is similar in size and resolution could have a greater than 3TB of data per second, which is a massive amount of information.

To stop this, holobricks could offer individual segments of one huge holographic image, greatly decreasing the amount of information required. It could be the case for the introduction of holograms for everyday entertainment, such as movies, games and digital display.

Clothes that are able to hear

Wearable technology has advanced in leaps and bounds throughout the past few years, adding new capabilities to clothes and accessories we wear from day to day. One possible avenue is giving the ears of clothes at the very least, having the same capabilities like an ear.

Researchers from MIT have designed an artificial fabric that is able to detect heartbeats handclaps, handclaps and even subtle sound. They suggested it could be used as wearable tech for blinds, utilized in buildings to identify strains or cracks or even weaved into fishnets for detecting the sounds of fish.

The material is quite heavy and is a work in development, but they plan to make it available for use by consumers in the next couple of years.

Dairy products made in the lab

There’s been talk of the cultivation of “meat” and Wagyu steaks produced cells by cells in a lab however, what about other foods made from animals? An increasing number of biotech companies across the world are looking into lab-made dairy products like dairy, ice-cream, cheese and eggs. There are many who believe they’ve succeeded in achieving this.

The dairy industry isn’t eco-friendly, it’s not even very close. It’s responsible for 4 percent of carbon emissions in the world greater than shipping and air travel together, and demand is increasing for a cleaner splash of water to pour into our cereal and tea bowls.

In comparison to the meat industry, dairy isn’t as difficult to produce in a laboratory. Instead of growing it from stem cells the majority of researchers try to create it through fermentation, aiming to make the dairy proteins whey and casein. There are some products already on markets in the US with companies like Perfect Day, with ongoing research focused on replicating the taste and the nutritional benefits of regular cow’s dairy.

In addition, scientists are working on a lab-produced mozzarella that melts flawlessly when placed on pizza, and other cheeses and ice cream.

Hydrogen planes

CO2 emissions have become a major problem for commercial flights, however there’s a solution that has been able to attract lots of money.

An PS15 million UK project has revealed plans for a hydrogen-powered aircraft. This project is called Fly Zero and is being directed by the Aerospace Technology Institute in conjunction with the UK government.

The idea has been able to come up with the idea of a mid-size plane that is entirely powered with liquid hydrogen. It could be able to carry 279 passengers across the globe without ever stopping.

If this technology can be implemented, it could lead to an all-carbon flight that has the need for stops at all between London and Western America or London to New Zealand with a single stop.

Digital “twins” that track your health

The world of Star Trek, where many of our concepts of futuristic technology were born in the human body, humans are able to go to the medbay and get their entire body checked for any signs of injury or illness. In real life, doing that will, according to the creators of Q Bio, improve health outcomes and ease the burden on medical professionals while at the same time.

A US company has created scanners that test hundreds of biomarkers within about an hour, from hormone levels, to fat that is accumulating in your liver, to indicators of inflammation, or any of the cancers. The company plans to utilize the information to create an 3D digital image of the body of a patient – also known as the digital twin. This can be monitored throughout time and updated by every scan.

Q Bio CEO Jeff Kaditz believes it can lead to an era of personalized, preventative medical care in which the huge amount of information gathered will not just help doctors prioritize the patients who need to be treated the most urgently, as well as to create more advanced methods of diagnosing illnesses.

Direct air capture

Photosynthesis is a process that takes place in the sun tree photosynthesis, they have been one of the most effective ways to lower the amount of CO2 that are emitted into the atmosphere. But, the latest technology may play the same role as trees, taking in carbon dioxide at higher levels and occupying less space.

This is also known by the name of Direct Air Capture (DAC). It involves capturing carbon dioxide out of the air and either keeping carbon dioxide 2 in geological caves deep below the surface or using it in conjunction with hydrogen to create synthetic fuels.

Although this technology has immense potential, it comes with several issues currently. There are direct air capture facilities in place and running, however the models currently in use require an enormous amount of energy in order to operate. If the energy requirements are reduced in the near future, DAC could prove to be among the most significant technological advancements in the coming years of our environment.

Funerals in green

Sustainable living is now the top priority for people who are living with the reality of climate change, however, what is the eco-friendly way to die? The process of dying is typically carbon-intensive, which is one final mark of our environmental footprint. According to reports, cremation releases 400 kg of carbon dioxide into the atmosphere for instance. So , what’s a better alternative?

The state of Washington State in the US In Washington State, you can have your compost taken instead. Bodies are placed in chambers that contain straw, soil, bark and other components that encourage natural decomposition. In just the period of 30 days, you body will be transformed into soil that could be put back into the landscape or a woodland. Recompose the company behind this process, claims it utilizes only one eighth part of carbon dioxide produced by cremation.

Another alternative to technology relies on mushrooms. In the year 2019 the deceased actor Luke Perry was buried in the custom “mushroom suit” designed by an entrepreneur called Coeio. The company claims that its suit is made of mushrooms, and other microorganisms, aid in decomposition and neutralize the effects of toxic substances that manifest as a body decays.

Many alternative methods of getting rid of our bodies following the death of a person aren’t based on the latest technology, they’re waiting for the acceptance of society to be able to catch up. Another alternative is alkaline hydrolysis which involves breaking down the body into its chemical constituents over the course of six hours in a chamber that is pressurised. It is legal in a variety of US states and produces less emissions than more conventional methods.

Artificial eyes

The bionic eye has been a staple of the science fiction genre for a long time but the reality of research is catching up to the farsighted storytellers. There are a variety of technology on the market to help people who have different types of vision impairment.

In the beginning of January 2021, Israeli doctors implanted first artificial cornea in an 78-year old blind bilateral man. After the bandages had been removed, the patient was able to identify family members and read their names immediately. Implants also fuse naturally with human tissue without the body of the patient rejecting it.

Also in 2020 Belgian researchers developed an artificial eye that is fitted to contact lenses with smart sensors to correct various eye issues. Researchers are researching wireless brain implants that can bypass the eyes entirely.

Scientists from Montash University in Australia are conducting tests for the use of glasses with cameras. This transmits information direct to the device that is placed on the surface of the brain. It gives users a basic perception of sight.

Energy storing bricks

Scientists have discovered a way to store energy within red bricks used in the construction of houses.

Researchers at Washington University in St Louis located situated in Missouri, US, have come up with a method to convert the widely-available building material “smart bricks” that can conserve energy similar to batteries.

Although the study is in the stage of proof-of-concept researchers claim that walls made from the bricks “could store a substantial amount of energy” and could “be recharged hundreds of thousands of times within an hour”.

Researchers have developed a method to convert red bricks to an energy storage device, called supercapacitors.

The process involved applying a conductor coating, also known as Pedot on the bricks that then sank into the porous structure and transformed these to “energy storing electrodes”.

Iron oxide, the red pigment found in bricks, assisted in the process, researchers noted.

Smartwatches powered by sweat

Engineers from Glasgow’s University of Glasgow have developed an innovative type of supercapacitor with a flexible design, that conserves energy and replaces electrolytes that are found in traditional batteries by sweat.

It is able to be fully charged using just 20 microlitres of liquid and is durable enough to endure 4000 cycles of bends and flexes that it will encounter during its usage.

The device functions by coating polyester cellulose in a thin layer polymer that acts as the electrode of the supercapacitor.

When the fabric absorbs its sweating wearer’s sweat the negative and positive sweat ions interact with the surface of the polymer, producing an electrochemical reaction that produces energy.

“Conventional batteries are cheaper and more plentiful than ever before but they are often built using unsustainable materials which are harmful to the environment,” says Professor Ravinder Dahiya, the head of the Bendable Electronics and Sensing Technologies (Best) group, which is located at Glasgow’s The University of Glasgow’s James Watt School of Engineering.

“That makes them difficult disposal, and could be harmful to wearable devices. A damaged battery can leak toxic fluids on the skin.

“What we’ve been able achieve in the very first instance is to demonstrate that human sweat offers an opportunity to get rid of these harmful substances completely that have excellent charging and discharge performance.

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