Those who say that the smartphone of the future has already been invented, and that innovations are being launched “in dribs and drabs” to sell more. Are you of the same opinion? Actually, there has never been any sign of it, but now we have learned of the first: this is the first “iPhone X-Ray” that shatters the limits of the most advanced cameras today, but it has a problem: experts are concerned about this that you could do and that does not end up convincing, even branding it as “dangerous”.
The first “iPhone X-Ray” ever presented: It’s so futuristic that experts cannot believe it
In a recent discovery, scientists have invented the first Smartphone “X-Ray vision chip” that enabled the phone users to see through objects/equipment. This much-talked-about but formerly fictional technology is now a reality through the hard work of a group of scientists, but it’s now a reality.
The chip, now developed to be placed in the camera module of smartphones, is made to take pictures where the internal structure of an object is visible. Through the use of electromagnetic radiation, this chip is able to scan through different materials, such as plastics, wood, and even certain types of metal, to give the user a sneak peek at what is on the other side.
It’s not about magic: That’s how this chip work
The X-Ray vision chip contains the following main components that help achieve the intended goal. The foundational element of the chip is a selected sensor, which is designed to respond to a selected band of EMR, usually in the X-Ray or the near-infrared area. This sensor is accompanied by a sequence of filters and lenses that assist in focusing and guiding the input radiation to the sensor.
After that, the sensor records the collected radiation, and the chip processes it with the help of complex image analysis algorithms that can reconstruct an object’s internal structure from the captured data. These algorithms also engage other attributes, like the density of the material being embedded in the scan, as well as others that enable a more detailed and correct visualization.
Experts are not convinced by this invention: the first “iPhone X-Ray” and what’s behind it
The first tested performance figures of the X-Ray vision chip are rather high. In the view of the researchers, the chip is equally designed to take images besides capturing videos at a resolution of 1080p at a rate of 30 frames per second. It not only outdoes other chin-based boom microphones but also rivals the capabilities of top-tier smartphone cameras.
Concerning capabilities, the X-Ray vision chip’s performance indicated the possibility of passing through numerous types of materials, such as plastic, wood, or even some forms of metal. However, one has to appreciate the fact that the depth and clarity that come with the images highly depend on the material being imaged.
It’s all about finding the correct material, and experts have done it
Denser materials, for example, metals, might be tough to penetrate, and therefore they might have an inferior image as a result. The invention of the X-Ray vision chip has not been easy, as it called for research from different disciplines like material science, optics, and computer engineering.
As expected, the team has done a lot to combat the inherent challenges related to developing a small, low-power, integrated chip to create good picture quality. In the future, regarding the applicability of this technology, the researchers are optimistic about the future engagements (but not convinced at all).
They imagine practically all applications, both diagnostic and therapeutic, in all medical areas and specialties, industrial, and other applications, including even security ones. In conjunction with the smartphone, the researchers intend to provide X-Ray vision chips, making this powerful technology an everyday tool for the community, thus exploring more possibilities.
What should be the first “iPhone X-Ray” has become an innovation that, while not officially owned by Apple, has managed to sneak into its App Store in a way. If you take a look at it, it is full of applications that “promise” to do the same, although with a different result from the innovation we have shown you. Logically, it is in the experimental phase, although it won’t take long for it to materialize and be marketed on a large scale.
