What is 6G technology and how does it work?

What is 6G technology and how does it work? Although it wasn't long after the advent of 5G technology, tech companies are already preparing proactively for the next generation of wireless technology i.e. 6G, what exactly does this mean? How will it work?

What is 6G?

If it is not really clear, 6G is the sixth generation of wireless communication technology, the cornerstone has not been laid yet, but the standard promises to establish a more widespread and reliable presence over the Internet across all cellular networks, and to delve deeper into the essential details, we will have to clarify what It makes this standard different from its more popular predecessors, and we call this new standard "6G" rather than "5G faster" 5G or "enhanced 5G"Enhanced 5G because there is a difference in how device manufacturers implement each standard, and a 6G transceiver box that provides communications services for another device will not have enough similarities in its internal parts to share the same generation as its predecessor. 6G will need manufacturers to completely redesign their product communications suite to work with these standards, and this was the same reason why 5G is turning into something "different" rather than seeing it as just an enhanced version of 4G LTE.

At this stage, no standard has been fully developed, but telecom companies around the world are already speculating on what 6G can offer, and at the moment it appears that this technology could provide a bandwidth of around 95 Gb / s, providing a powerful platform for many Devices to transmit and receive data with low latency and high reliability, and at its core 6G is looking to harness the powerful potential that 5G has already provided to the Internet of Things ecosystem, and people who accidentally watch YouTube while strolling on the sidewalk won't notice much of a difference given the generations Legacy communication technology already covers the necessary bandwidth.

The real difference will come when there is a huge potential for congestion in the network in an area, for example, large pipes make large quantities of water flow more smoothly! In short, given that 5G (and to a large extent, even 4G LTE) covers the vast majority of mobile phone needs in our current society, 6G is just telecom operators anticipating new developments in consumer and business technology that will require more breathing space, along with changing the way device boxes are manufactured. Transmission and reception, 6G will also change the entire infrastructure of the local cellular network, as a rule of thumb an increase in the transmission rate requires a tighter distribution of cells.

In the end, all this fanciful talk about the new standards boils down to different ways of using the radio spectrum to convert waves into data and vice versa, and every new generation uses a higher frequency than the spectrum while sacrificing wavelength, and having to make this sacrifice means that the cellular carrier will have to deal with Band problems, and every generation of cellular technology that uses signals of shorter wavelengths is forcing manufacturers and network providers to grapple with new infrastructure challenges, 6G is no different, and it's not just devices that have to change - it's everything, and we're not done with the generation technology. The fifth after.

To really understand the amount of pressure our cellular networks are facing, we will have to step back one step and compare 5G to 4G, a typical 4G LTE transceiver can serve its local cell up to about 10 miles, meaning that if you are building a network with the goal of keeping your customers under the 'bubble `` 4G is smooth, you will have to make sure that you set it up in such a way that no one is more than 10 miles away from one of your powerful antennas, and if you want to expand your network to 5G, you will have to reduce that 10 miles to 1000 feet with the same amount of power, and that is not impossible, But the proposal gets more expensive and often on the existing infrastructure of the city, 6G will have a lot of problems coming out of the drawing board and practicality if it is to cover entire areas of the city with transceivers.

While it is clear that there are many challenges that 6G technology must overcome, not the least of which is the cumbersome infrastructure needed to equip and operate it, it is not very unlikely that telecom service providers will prepare to compete to be the first to implement it in many societies. All signs indicate that 6G technology will become a reality in 2030, but speculation can take us as far as our imagination can go, and the truth is that it will be a long time before the technology is tested and implemented on a scale suitable for consumption, and in the meantime 5G still has ahead. A long way to go before it is as ubiquitous as its predecessor.