While this display combination seems super convenient, it hasn't actually been done yet, as we simply don't have the technology to make it possible. However, it certainly is an exciting concept, and could become the norm in future smartphones. Given how rapidly technology is advancing every year, there's really no telling what smartphones will look like in a decade.
You've seen the experimental pictures of transparent smart phones, or even holographic smartphones online, and they seem a little silly. However, with time, smartphones could progress beyond our imagination.
With the progression and integration of AI, and the ever growing need for information sharing, smartphones are becoming more and more of an intrinsic part of our lives, and they could prove to be more of a blessing than a curse in the future. You could say this is a little scary. Technology seems to be developing with no end. However, these advancements are making our lives easier, and opening the doors to new, incredible possibilities, ones that might transform our world for the better.
So, we can't help but be excited! NFTs are associated with digital art, but will they have different uses in the future? Outside of her working life, Katie loves growing plants, cooking, and practicing yoga. Share Share Tweet Email. Katie Rees 98 Articles Published. Red, green, or purple colorways stand out more, but can give devices a toyish, less professional look.
With smartphones of the future, you may not have to choose anymore. Imagine a phone with a completely transparent back made from a glass-like material that fully absorbs light. The device would have one or more LED lights inside, the color of which you could change in the settings of the phone or maybe with your mind! When you choose orange, the entire back cover would completely absorb the color of the light and look exactly the same, almost as if it were painted on.
The feature could also have a mode to change the color automatically on a daily basis. With a few LED lights inside properly positioned, you could also create gradient colors, like what the Huawei P30 Pro has.
Unlike glass phones today, it would also be resistant to fingerprints. It also lets me read outside, under direct sunlight. This is more or less impossible with OLED displays.
The smartphones of the future I envision would combine OLED and e-ink technology into one, likely killing dedicated e-readers. With a simple tap in the settings, you could transform an OLED display into an e-ink screen for reading books, articles, and various documents without all that light shining into your face.
An e-ink display is also a lot less power hungry, which could mean longer battery life. Unfortunately, something like this is impossible at this point. Smartphones of the future may not be smartphones at all. These devices may take on a whole new form factor, which will enable us to perform the same tasks as smartphones do today — and more.
I see a future where smartphones in their current form get replaced by what look like regular glasses. My version of futuristic glasses would let you make and receive calls. The glasses would use bone conduction technology or something even more high-tech.
All these things could also be displayed in front of your eyes using AR technology. Of course, the glasses would feature a camera on board.
Or Fik-Shun dancing. Or porn. The experience would be extremely immersive. A lot of companies are already working in the field of smart and connected glasses. Well, that depends on how phone companies navigate the next few years. So if the next few years brings foldable phones that are affordable and, more importantly, vital for certain functions, people will leap on board.
One of biggest differentiating features between different smartphones nowadays is the front-facing camera — does your phone have a big notch like an iPhone, a teardrop notch like plenty of phones use, a punch-hole cut-out like many Samsung phones, a pop-up like several companies have embraced, or something else entirely? So what about the camera itself? Towards the end of , we've seen a few smartphones use two front-facers, one to take a picture and a secondary snapper for depth sensing, for more accurate background blur.
The US and the EU have recognized it as a critical technology and each has pledged to build advanced chip fabs in their geographies rather than rely on potentially vulnerable Asian manufacturers.
It will be hugely expensive. The cutting edge in volume chip production currently is held by TSMC in Taiwan -- at 5 nanometers nm , and Samsung is close behind. Intel is struggling to move down to 7nm from 10 nm. The smaller the number of nanometers, the faster your chip runs and the less power it consumes because the electrons travel shorter distances.
If batteries aren't a limitation, such as in the home office, then there's no problem building super-fast desktops based on powerful microprocessors that cost far less than their mobile version. This is also true for all the other desktop components: They don't need to be built on a cutting-edge chip process because they don't need to run on battery power. And also the display -- a big power-hungry component in laptops -- is much better looking and performing if it doesn't need to be mobile.
The rise of the desktop is likely inevitable given our current and projected working circumstances. We will see future emergencies, outbreaks that might be nipped in the bud. However, our new isolationist ways of living and working are not temporary and will continue that way for many people and businesses. We learned many things due to COVID, such as: When you are talking, you are spitting; video meetings are as annoying as real meetings; online shopping is brilliant; and there's less motivation to buy a new laptop or upgrade a mobile phone when a desktop and a digital watch is much more useful in a stationary world.
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