Mobile technology is the technology used in cellular communication. Mobile code division multiple access (CDMA) technology has evolved rapidly in recent years. Since the beginning of this millennium, a standard mobile device has grown from a simple two-way pager to a mobile phone, a GPS navigation device, a fixed web browser and instant messaging client, and a handheld game console. Many experts argue that the future of computing technology lies in mobile computing with wireless networks. Mobile computing through tablets is becoming more popular. Tablets are now available on 3G and 4G networks.
One of the most significant features of 4G mobile networks is the dominance of high-speed packet transmissions or bursts of traffic within channels. The same codes used for 2G/3G networks apply to 4G mobile or wireless networks. Recent studies have indicated that the traditional multi-layer network architecture based on the Open Systems Interconnection (OSI) model may not be suitable for the 4G mobile network, so short packet transactions will be the vital part of the traffic within the channels. Since packets from different mobiles carry totally different channel physiognomies, the receiver must execute all required algorithms, such as channel estimation, interactions with all higher layers, etc., within a limited time period.
Within five years (in 2020), humanity will be surrounded by faster and more powerful wireless networks. Today, the networks that power our smartphones and Internet-connected devices are primarily based on 3G and 4G technologies. However, the higher-performance fifth-generation technology known as 5G is coming, and it promises to take us to greater heights.
5G is considered key when it comes to “The Internet of Things” (IoT), the name given to the idea of encompassing almost anything on the Internet. Billions of sensors will be incorporated into cars, home appliances, health monitors, security systems, door locks, and wearable devices. Gartner, an analyst firm, predicts that the number of networked devices will increase from about 5 billion in 2015 to 25 billion by 2020.
According to Femi Adeyemi, Lead Mobile Architect at Fujitsu. We will have labels that will allow us to know the whereabouts of our children and when they return home and the cars drive autonomously on the roads.
Also, 5G networks will be about 20 times faster than 4G networks. That speed opens up exciting new capabilities. Autonomous cars can make critical decisions over time. Video chats will create the illusion of feeling like you are all in the same room. And cities will be able to monitor traffic congestion, parking demands and pollution levels and, in response, feed that data to their smart vehicle in real time or any smart device used for monitoring purposes.
In terms of data speed, according to the International Telecommunications Union (ITU), they decided that the 5G compatible network should offer data speeds of up to 20 Gbps (Gigabits per second), of which it is 20 times faster than the specifications. 1 Gbps for 4G. networks With 5G networks, it will open up access to higher resolution 4K video content as well as holographic technology over mobile networks. The 2018 PyeongChang Winter Olympics will provide a demonstration of 5G technology in action.
Various types of mobile operating systems (OS) are available for smartphones including Android, IOS, Blackberry OS, WebOS, Symbian, Bada, and Windows Mobile. Among the most popular are Android and Apple’s iPhone. The Android mobile operating system (OS) is developed by Google and is the first open source mobile operating system, which means that it is free for any mobile cell phone network.
future of smartphones
The next generation of smartphones will be context-aware, taking advantage of the increasing availability of embedded physical sensors as well as data sharing capabilities. One of the key features that apply to this is that smartphones will start to track personal data, but will adapt to anticipate the information needed based on individual intentions. Entirely new apps will be released with the new phones, and one of them will be the X-ray device that reveals information about any location the phone is pointed at. One thing that companies are doing is developing software that will take advantage of more accurate location detection data. The way it’s been described is that they want to make the phone a virtual mouse that can be clicked in the real world. For example, if you point the phone camera while you have the live feed open, it will display text with the building and save the location of the building for future use.
Along with the future of smartphones will come the future of another device to be known as the “Ominitouch”. This device will allow you to view and use applications on your arm, hand, desk, wall, or any other everyday surface. The device will use a touch sensor interface that will allow the user to access the user to access all the functions by using the touch of the fingers. It was developed at Carnegie Mellon University. This device uses a projector and a camera that is placed on the person’s shoulder, with no controls other than the person’s fingers.
Over the past decade, smartphones have taken the world by storm and recently tablets have also made their entry into the arena. These mobile devices now have a significant impact on our daily lives and are in fact redefining the way we access information and communicate with others. This is due not only to the hardware, but also to the specialized software these devices run on and, most importantly, their operating systems. Just as a PC can run different operating systems (such as Windows, Linux, BSD, etc.) or different versions of similar operating systems (such as Windows XP, Windows Vista, Windows 7/8, and now Windows 10), most Smartphones and tablets can now also run different versions of the operating systems they were built for and, in special cases, might even run operating systems they weren’t built for. The future of mobile technology surely looks bright.