12 upcoming future features for Smartphones will soon be even more modern. In the mid-2000s, mobile phones could only do a small fraction of what their latest parallels are capable of with the latest technological advancements; we can always expect new smartphone features.
The Advanced features are as follows:
- Nano-Tech batteries
- Liquid Buttons
- Photonic crystal displays
- Virtual Reality
- Biometric Authentication
- Headphone surround sound
- Pressure Sensitive Screens
- Graphene
- No SIM Cards
- Innovative Medical Apps
- Flawless Voice Interaction
- Smart Cameras
12 Upcoming Features For Smartphones
Nano-Tech Batteries
At the 2015 Mobile World Congress, Israeli tech company StoreDot gave away a Samsung Galaxy S5 with a nanotechnology-based battery that charged from 0 to 100% in less than a minute.
The technology was developed due to research into Alzheimer’s disease treatment. Scientists discovered via their research that the disease-causing peptide molecules have a very high capacitance, which makes them perfect little electrical storage devices. Samsung has already invested significantly in StoreDot, and the company is negotiating with manufacturers to include its battery in upcoming devices.
Liquid Buttons
Most phones had physical keyboards years ago, and any mobile device without one was considered “out of touch.”The keyboard uses unique microfluidics technology to force tiny liquid droplets into imperceptible pockets above the smartphone’s keyboard. The pockets immediately fill with liquid as the user raises the touchscreen keyboard, which causes the buttons to rise.
Although a new Phorm shell for the iPad Mini already uses the technology, it wouldn’t be shocking to see it integrated into upcoming tablets and smartphones.
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Photonic Crystal Displays
Even though most smartphone screens now can display a vast array of very saturated colours, most struggle to adjust to different lighting conditions. Research and development are considering photonic crystals as the solution to this constraint.
A photonic crystal display uses nanostructures that adjust and change themselves based on the ambient light in a particular location instead of emitting bright light like LCD or OLED displays. For example, for e-readers like the Kindle Paperwhite, the photonic screen might be readily integrated into the phone’s body, even if it needs an external light source to be visible.
The fact that Google and Apple have been investing heavily in photonics and that Samsung had already shown the idea of a foldable phone using a photonic crystal display in 2013 should indicate how near-market this technology is. In the coming years, we’ll likely see these screens in smartphones.
Virtual Reality
It’s been a while since smartphones have been the focus of virtual reality technology, while soon-to-be gadgets like the Oculus Rift, Playstation VR, and HTC Vive have influenced the news. The new 4K screens of smartphones in 2016 are best suited for VR applications.
As the phone will serve as the display for the VR headset, 4K resolution will be crucial to delivering a pixel-free, immersive experience. We currently bury our faces in our phones and disregard the outside world, which may or may not be good.
Biometric Autentication
Although the Samsung Galaxy S6 and iPhone 6 read ridges on your fingertips using capacitive technology, this technology may be deemed inadequate from a security point of view since it uses insufficient data points, making it more vulnerable to hackers.
With the help of a piezoelectric layer, Qualcomm has developed a new ultrasonic fingerprint scanner that improves the idea. The scanner maps your finger and has a far higher resolution, an added security feature.
Headphone Surround Sounds
In the past, surround sound on headphones has received some rather unfavorable reviews. However, audio developer DTS is now attempting to appease the detractors with a 7.1 mobile audio solution for smartphones that claims to accurately replicate the sound of particular listening environments with even the most basic set of headphones.
The increased processing capacity of modern smartphones should be able to handle the progress in audio technology, even though there is still more work to be done before the system functions with all source material.
Pressure Sensitive Screens
As seen by the Force Touch on the Apple Watch, manufacturers can already produce screens that can sense pressure. Users will have even more options to control their phones with controls that can discriminate between a forceful press and a soft tap, which will assist the gaming community.
A patent for something called “Touch Display Apparatus Sensing Force,” which obviously employs the same technology as Apple, has also been filed by Samsung. In July 2015, Chinese company ZTE unveiled the ZTE Axon Mini, which also boasts a pressure-sensitive touch screen.
Graphene
Since its evolution for actual supplication in 2004, graphene has been complimented as a “wonder material” by almost everyone in electronics construction. It’s flimsy, thin, flexible, translucent, and over 200 times more powerful than steel. It’s also one of the finest materials for managing electricity, making it ideal for electronic devices.
Smartphone designs that use graphene could become incredibly thin, transparent, flexible, and nearly unbreakable. Phone manufacturers have been experimenting with graphene and have recently made some achievements.
Most significantly, graphene was created at Samsung’s Advanced Institute of Technology (SAIT) using a method that preserved its exceptional electrical properties, which had previously proven to be a significant obstacle. This advancement should make flexible, transparent smartphone screens economically feasible within several years.
No SIM Cards
Despite manufacturers ‘ efforts to make them smaller, SIM cards have still been a holdover since the 1990s. Fortunately, Apple and Samsung are replacing SIM cards with electronic versions, eliminating their physical presence from the globe.
You can effectively move between network providers at any time without needing to seek a new SIM card if your phone has a programmable SIM built-in, which should be very helpful for anyone who wishes to set up a local number while traveling or residing overseas. According to reports, brand-new cell phones might include the technology as early as next year.
Innovation Medical Apps
Recently, investigators generated the Athelas app, which path spiteful cells and malaria as they travel through a patient’s blood utilizing a lens accessory. To better understand the movement and spread of extremely contagious diseases like Ebola, scientists are now searching for other ways that smartphones could be used to track these infections.
Diseases should be identified in hours or minutes using PCR, a cheap phone add-on to locate and track blood infections. After that, the collected data would be automatically transferred from the phone to an online database for analysis by other scientists.
It is simple to see how smartphones could soon revolutionize medical care when you combine this new technology with other already available applications that can track things like heart rate and blood pressure.
Flawless Voice Interaction
Virtual personal assistants and information navigators like Apple’s Siri have been developed due to gradual advancements in voice interaction over the years. However, that is only the beginning. Voice-assisted application techniques are developing at a dizzying rate.
Given how rapidly technology is developing, it won’t be long until artificial intelligence (AI) gets so wise that it begins to provide you with advice that anticipates your exact ideas. To avoid being reliant on our smartphones in the future, let’s hope that the developers will remember to incorporate Asimov’s three rules of robotics into their creations.
Smart Cameras
Qualcomm demonstrated a camera in 2015 that demonstrated its ability to recognize the objects it was observing. The technology compares items in the actual world with a sizable reference database kept on the device. The best part is that the program can be trained to comprehend ever-greater things like a tiny infant artificial intelligence.
With this technology, cameras can do a wide range of practical and ingenious tasks related to the real world. With Google Photos, Google has also been creating a deep search identification tool. This feature will inevitably become commonplace on phones as camera hardware gets smaller and better.