Proactively eliminating known and latent risks: Anomaly Detection on 5G Smart watches, VR, AR and drones: A large number of relatively new inventions that require constant interactions with the environment/ other devices to enable accurate, seamless operations have been unable to witness full-fledged rollouts due to a lack of the speed and bandwidth afforded by 5G.Real-time robotic surgeries: The exceptional speed and low latency of 5G will, for the first time, make it possible to support remote execution of surgeries, with doctors and patients literally located on opposite sides of the world – and artificial intelligence (AI) and machine learning (ML) enabled robots carrying out the necessary procedures.The only technology capable of supporting this proliferation of devices is 5G, which will therefore play a critical role in the continued development of smart factories and manufacturing processes. IoT networks: With the number of IoT-enabled devices set to explode in just about a year ( 86 billion sensors and devices will be deployed in the consumer segment alone by 2020, according to Forbes estimates), faster, more streamlined communication among the growing number of devices is rapidly turning from a ‘nice-to-have’ into a ‘need-to-have’.This in turn can help reduce and eventually eliminate road accidents, leading to safer, smoother traffic – a major necessity in today’s increasingly populated and frenzied times. Self-driving, connected cars: The extremely low latency of 5G networks will be able to facilitate decisions for autonomous vehicles on a real-time basis.A few of the major applications urgently awaiting the breakthrough are listed below: Some of the most progressive advancements in digital transformation are yet to see the light of day for want of 5G technology to ensure feasibility as well as scalability. Yet, the promise of 5G is immense – just the fact that it embodies three features, viz, unparalleled speed, device coverage density and low latency, alone makes it ideal for fundamentally new use cases in applications and business models across a variety of industries including retail, transport, government and entertainment. In other words, its range is considerably shorter than that of 4G due to its usage of high frequency signals, which cannot travel very long distances. What’s interesting to note is that while 5G can support a much higher device density at blazing fast speeds when compared to 4G, it requires a tower every 300 metres. Here’s a summarised comparison of the major metrics in both the bands: Band/Parameter Now, it’s from 4G to 5G that there’s been the biggest leap yet – both in terms of performance and the way the whole setup operates. 4G LTE – High speed (functionalities mostly the same).3G – Voice calls + messaging + multimedia & internet data services.Let’s take a quick look at the highlights of what the previous generations of technology have offered before we compare just the last two: Though you may be forgiven for thinking that 5G is just another generation of communication technology, the truth is that it will usher in a world of difference in terms of performance and operations. Why’s there so much hype this time around? What’s the big difference? The introduction of 5G, which will offer blazing data speeds, minimised latency and higher system capacity at reduced costs, will thus open up an unprecedented range of applications. Come March 2020, and India will be witness to the latest advancements in cellular technology, entailing some very impressive features and benefits.Īs the world has moved from connected devices to cars and further on to factories, the need for enhanced communication technology has amplified multiple fold. While the 5G PR machinery has been on a roll for a while now, there’s finally a clear picture of when exactly we can expect the technology to hit our shores. The much-awaited revolution is nearly here.
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