Mobile phone technology seems like it’s replicating CPU or computer processor technology trends. Chances are if you read tech blogs or any other kind of online resource, you probably already know about Moore’s Law. This law states that processor speeds “or the number of transistors a microchip can hold will double every year. This fact is based on just an empirical observation and not a physical law that can be measured and predicted. So far, it has held firm ever since it was started several decades ago.
A lot of scientists are under the impression that sooner or later we’re going to hit a wall when it comes to the number of transistors and processing units we can put on a single microchip. Well, so far, we haven’t hit that wall, and it seems that with the advent of quantum computing, we may never break free of Moore’s Law. It may remain the “law” for computing and microchip design for a long time to come. This reality is precisely what is taking place when you examine what’s going on with mobile phone technology.
For the longest time, a lot of microchip industry insiders were under the impression that computer microchips and mobile device processors necessarily would have to run on different tracks. The idea is that since mobile phones and tablets are “lower grade” devices compared to desktops, laptops, and notebooks, at most, consumers would settle for really stripped-down CPU performance. This scenario hasn’t been the case when you look at the latest offerings by Samsung and other similar mobile technology players.
They are packing a tremendous amount of processing power in such a small compact form. It doesn’t matter whether you are using a mobile phone or tablet device; the computing power that you would get from such mobile technology devices compares decently with traditional computing hardware likes desktops, notebooks, and laptops. In this context of ever-increasing and ever robust processor core technologies, we need to view the future of mobile phone technology trends to watch out for.
If you have ever played Pokémon Go on your mobile device, you have experienced a test of augmented reality technology. AR is a technology that has been around for quite some time. You use your phone’s camera to capture information from the real cortical world. Then, your phone’s app would process it so that it looks different, or you can record it so you can alter it somehow.
Another basic example of augmented technology is facial filtration apps that are popular on Snapchat and Facebook, but augmented reality is more powerful than this. Because reality can reach a point where you can automatically decode languages by just only capturing them with your phone, and your app will automatically translate.
There are already some apps that do this, but they are on a reasonably clunky level. It’s a given how fast augmented method reality is changing and developing. It’s only a matter of time until we get really smooth and almost instant app-based processing of stimuli as we capture reality using our phones.
No Charge Mobile Phones
Another exciting mobile phone technology trend is the heavy focus of old phone manufacturers and subcontractors at reducing the phone’s energy consumption while preserving its performance. I may be thinking that this is an impossible task.
If you look at the typical Samsung mobile phone today, it packs a whole lot more features compared to the same model as recent as five years ago. You would think that a lot of these features require a lot of battery power. Some iPhone models are evolving to the point that they are using up less battery power.
While at the same time, battery makers, as well as phone manufacturers themselves, are looking at different sources of electricity. One exciting field is kinetic electricity. Just by simply walking around with your phone in your pocket, the motion you produce can generate enough power to run your phone.
Another approach is to use a solar cell at the back of your phone, which operates like a typical solar calculator. If you use these devices, you know that your calculator doesn’t need much natural sun to do its job. There is quite a bit of exciting work being done on realizing the vision of mobile phones that don’t need charging.
Flexible screens have been around for quite some time. These are foldable LED screens. When it comes to mobile phone technology, significant development involves durability as well as brightness and touch screen functionality. These flexible screens can pave the way for mobile phones that are flexible enough for you to put in your back pocket and not have to whip out when you sit down. They may be able to handle all the punishment of daily wear-and-tear without any significant loss in performance as well as video clarity.
If you thought talking to people on live video using your phone is exciting, wait until you speak to them in 3D. This technology is achieved when light is bounced off the screen, and there are different gradations of light radiation from a mobile phone screen.
Admittedly, hologram technology is still in its elementary level because developers and engineers are still working on different types of glass surfaces. They are also developing a screen technology to produce the Hologram effect without requiring mobile phone users to wear special glasses similar to those you see at 3D movies.
The final word on mobile phone technology
As you can tell from the basic examples listed above, mobile phone technology is processing at a high-speed phase. More and more people all over the world use smartphones. The market is on a race to come up with technology that will truly capture the market’s imagination. Consumers are always looking for something bigger, better, brighter, and flashier.