In telecommunications, 5G stands for the fifth-generation technology standard for broadband cellular networks. Cellular phone brands started positioning worldwide in 2019 and 5G is the organized successor to the 4G networks that bestow connectivity services to most smartphones. In general, it is anticipated that the timescale for the first 5G networks will be around 2020, although there is coercion among some famous operators to launch much earlier. However, the useful lifetime for 5G is expected to be long.

What is 5G?

5G is the 5th generation mobile network. It is the latest global wireless standard preceding 1G, 2G, 3G, and 4G networks. 5G authorizes a brand new type of network that is curated not only to keep up with the latest mobile app development trends but also to connect everyone and everything virtually. This includes machines, objects, and mobile devices.

5G wireless technology is meant to remit elevated multi-Gbps peak data speeds that are reliable and come along with huge network capacity. The increased availability and ultra-low latency are subject to a more consistent user experience for most smartphone users. 5G is not only bridging the gap between new industries but also empowering a new era of user experience that is highly efficient and super fast in terms of speed as well as performance.

The impact of 5G technologies

5G is driving global growth with $13.1 trillion dollars of economic input. Studies show that 5G is likely to impact on huge scales across the globe by 2035 by supporting a wide array of industries and enabling a landmark for goods and services. This impact is much more substantial than any other previous network. The development requirements of 5G networks are enlarging beyond the traditional networking technologies. Here are a few noteworthy impacts of 5G technology:

IoT implementation

Right from the evolution of 3G, the internet of things experienced great possibilities for web browsing and other inventions. However, IoT implementation and 5G networks are more than just a new generation of wireless technologies. This not only represents a fundamental change in the ecosystem of smartphones but also unleashes a power-packed amalgamation of expanded bandwidth and extraordinary speed.

5G is expected to enhance various day-to-day IoT connections such as traffic lights, sensors, cameras and much more. The smart IoT meters and connections that are supported by 5G will monitor energy consumption and play a huge role in reducing the usage of energy. The large capacity of connected devices that comes along with 5G and the possibility of adding virtual networks or network slicing provides adjusted connectivity to concrete user needs.

Video streaming

In recent years, video streaming has become substantially widespread. With the help of multicast technologies and 5G, it is now possible to watch an entire soccer match or your favorite series on your smartphone in HD quality with no interruptions even during road journeys.

In the field of video streaming, acquiring to be closer to what’s happening live is one of the primary challenges. Yet, streaming over the Internet using 4G still results in a lag of 30-40 seconds on smart devices, mobile phones or tablets. But with the implementation of 5G in the world of video streaming this service can be dramatically enhanced at various levels including the quality of the video, downloading time, interruptions and lag. Keeping in mind the enthusiasm of todays’ generations for live feeds, research workers are now working to adapt live streaming TV so it can be done on the go.

GPS performance

When we think of navigating to our locations, satellite-based technologies like the global positioning system (GPS) come first to our mind. With a constellation of satellites covering the earth to assist smartphone users to resolve their destination or reaching their desired locations, GPS has seen major advancements over earlier positioning technologies.

In such scenarios, 5G has brought a new dimension of location awareness and GPS facilities with precise positioning services. It helps smartphone users navigate through indoor places such as shopping malls, mines, hospitals and much more. With the help of more accurate vertical and horizontal information, it is quicker to reach emergencies. Moreover, 5G enables tracking drones Beyond the Visual Line Of Sight(BVLOS). For better route logistics, tracking fleet vehicles has become accurate by getting contextually relevant information for better user insights.

Cloud compatibility

5G networks have introduced a new era of business network infrastructure and reimagination of design. Es[pecially for cloud computing, the deployment of 5G networks will not only speed up business adoption of the cloud but also unleash massive computational power. These higher speeds and low latency is anticipated to be a catalyst for mobile cloud computing services.

Mobile cloud computing authorizes the usage of very less device resources because of its cloud support. The shared resources of mobile applications allow development to be faster and assure reliability with data being backed up on the cloud. However, at times the traditional network faces issues in dispensing high bandwidth for carrying out various tasks coherently.

The non-device storage proficiency extended by the cloud is a nifty capability across various industries ranging from smart cars, and healthcare to wearable devices. Cloud-based 5G products and services offer efficiency, reliability and faster access to valuable information. 5G is expected to skyrocket the integration of these technologies in various organizations as it promises to deliver zero to ultra-low latency facilitating smooth communications.

AR and VR

AR and VR are still correspondingly niche technologies that have not yet been embraced on large scales. The reason is the challenges that can now be overcome by 5G and edge computing. A high-speed 5G network is primarily high data that anchorages a new, greater version of the bandwidth 5G spectrum. It not only bestows super-fast speeds but also elevated system capacity along with better spectral coherence for applications in the consumer space. This includes devices and technologies like smartphones with augmented and virtual reality and industrial routers and gateways that demand best-in-class connectivity.

With the commercial retribution of the 5G network, augmented reality and virtual reality engird a variety of hosts of new use cases. This includes augmentation with the help of edge computing bringing great value to industries and organizations. AR involves prepending digital overlays to live views. This can be done using a smartphone but with 5G networks, it is more likely to be deployed on a pair of smart glasses. VR is an absolute captivation in the digital view and must be positioned using a pair of glasses that limits the vision of the user from the reality around them.

Conclusion: Future of 5G

The future of 5G holds in store fresh opportunities and groundbreaking solutions that will reach across the society. 5G promises billions of connected smartphone devices sharing information in real time. The 5G production lines are so predictive, that they can prevent interruptions way before their occurrence. This will result in life-saving applications that reduce road accidents and guarantee lag ree connections. We can say that 5G is leaping towards a safer, smarter and more sustainable future.