What is Augmented Reality Display ?

Have you ever met someone who looks familiar but doesn't remember?  While walking in an unfamiliar city, you constantly know their name or how you know them.  Gives directions to your smartphone or GPS, but why inputs to desktops and keyboards?  Computers and the World Wide Web are uniquely limited at the push of a button.  Smartphone cameras, GPS and screens now give the user real-time, location-specific information. 

 Your dialogue and even your eyes will be visible.  In the future, with wearable augmented reality displays, information can be quickly accessed and viewed without having to access your computer and other devices on the Internet.  The reality you see in front of you is improved or augmented with additional visual information along with projected images.  Technology is improving with the real world and will continue to improve our lives as we look to the future.  Removing information about visual images is no longer new.  Many search engines already have the ability to recognize an image by looking at the same images in your database.  

In addition, many types of software can identify a person by looking at key points in facial makeup.  These augmented reality displays will take this technology one step further with wearable glasses or contact lenses.  Whether you look at a landmark, a textbook, or a person, the computer connected to that display can retrieve the information you need and keep it in your sight.  So don't worry if at some point you forget the name of the person greeting you at the coffee shop.  Her name and brief biography will be retrieved from her social networking account and displayed in front of you so that you can respond appropriately to her greetings.  The identification of people and objects is not the only use of augmented reality.  As the size of the technology shrinks, this device can do all the work like your smartphone.

Usually you can look at the sky and get information about today's weather.  Text messages and incoming call notifications will appear in front of you, when you ask your friend where he got the new t-shirt from, you will see the prices of various online stores.  And, of course, as you walk the streets of an unfamiliar city, GPS will guide you by pointing an arrow in front of you.

Although this technology is likely to be available in the next few years, there are some challenges.  First of all, the problem is how to power the device.  Some devices, such as glasses or contact lenses, can be large enough to hold a battery that holds enough power to last all day.  Another problem is the limitation of human vision.  The difficulty lies in keeping things too close to your eyes.  Researchers have come up with a number of solutions to this problem, but changing the focus between the information being shown up close and the real-world elements, which may be far away, must be comforting to the eye.  After all, there is also the problem of feeling.  Would it be comfortable to wear these glasses or contact lenses all day long?  Would it be strange for those who do not know augmented reality to look at you?  Many companies and universities are working on different types of augmented reality displays.  Some have received military funding to help soldiers and pilots.  Google is the closest thing to publishing to the general public.

  The prototype in the Project Glass section is already being tested by various Google employees.  With the release of Windows 10, Microsoft has introduced HoloLens, an augmented reality headset with embedded Windows software that allows users to interact in the digital and real world through specials.  Now that you have learned more about augmented reality, do you find that you are using these types of glasses at affordable prices?  Do you think that it can be a dangerous distraction?  Comfortable

Next Generation Storage 

Have you started using cloud storage services for your files?  Do your friends and family also use it?  How do companies handle such a large amount of storage when millions of individuals and organizations are signing up for these services?  The answer is simple: they keep adding more and more hard drives.  Although hard drives were developed a long time ago, the technology behind the tool has greatly improved.  Terabyte hard disks using existing magnetic storage are now common.  In the near future, technology that stores movies and photos using heat, organic chemicals or holograms may also come up.  Technology has improved storage and will continue to do so in the future.  The hard drive is the first product to be greatly improved. 

 Hard disks are the best choice for primary storage for your computer and for millions of servers around the world.  This is the most affordable solution per gigabyte price.  So researchers are looking for ways to increase their capacity without increasing their size.  The maximum capacity of current hard disk technology cannot exceed 128 GB per square inch.  Hard disk maker Seagate is working on two new technologies that are expected to increase this limit, namely Heat Assisted Magnetic Recording (HAMR) and Bit-Pattern Media (BPM), the concept behind which is to reduce the size of bits,  Can accommodate more bits in space.  Capacity can reach 6.25 TB (or 6250 GB) per square inch when this technology is applied.  Seagate estimates that with such a density, the entire U.S.  The Congress Library can be brought on a single disk.  The latest optical drive Blu-ray is available in the market in 25 and 50 GB capacities.  Although many companies have increased capacity by adding those layers, its limitations will soon be Will come.  

GE Global Research is currently developing a disk in which tiny holograms are located in several layers, which respond to light.  This disc can store 1TB of data and a drive that can read them can also read your DVDs and Blu-ray discs.  Advances in chemistry have made it possible for circuits and storage media to soon be powered by carbon-rich atoms.  Researchers have discovered a chemical group called metallofluorescence that can be oriented in different ways and so it can represent 0 and 1 bits just like other storage media.

The biggest advantage of organic atoms is their size.  These molecules are very small and the storage device created by them will also be very small in size.  As a result, very small computers and equipment can be made.  You may be wondering, M of solid state storage or flash memory is not mentioned yet?  How this type of media has definitely improved over the last few years. 

 Flash drives and memory cards are getting smaller in size and their capacity is increasing.  However, considering the cost per gigabyte, they are much more expensive than hard drives.  In the beginning they were also limited because in life they could only write about 10,000 times.  While these two issues were not a problem on an individual level, they were not reliable for large organizations and cloud storage companies.  But the discovery of new ways to write information on solid state has shown a lot of improvement and the problems like SSD stability etc. have been removed.  Now we have seen many technologies coming in the future.  Which of these do you think you have been using for five years?  Do you think that the hard disk in desktop and laptop computers will go completely solid state?  Do you think that atom-sized storage solutions will be cheap enough to be used in all computers?