The cellular phone internet technology we have today is largely based on 4G LTE technology, a wireless communications standard that was first launched in late 2009. 4G LTE has radically improved the data transfer speeds on our mobile devices, particularly smartphones, allowing users to enjoy, for example, HD video streaming and play modern mobile video games.
AT&T, T-Mobile, and other mobile service providers launched 5G in 2018 and 2019 in the United States. They are now building 5G cellular networks across the country. Verizon and T-Mobile have also launched 5G home internet, which uses the same 5G networks to give you a home Wi-Fi experience similar to fibre or cable internet. 5G is steadily moving across the planet and becoming available to users in different countries. Unfortunately, in Ukraine, 5G networks are still only at the development stage and are not available to users.
Current 5G speeds range from 40 to 1,100 Mbps, depending on the type of 5G network in use. Using technologies such as millimetre wave spectrum and beamforming, experts estimate that 5G could reach maximum speeds of up to 10,000 Mbps. Whether or not 5G reaches this limit, companies using wireless technology are now moving beyond simply serving our phones and have plans to use 5G for other applications in industry, business, healthcare and remote work.
Perhaps when we reach 10,000 Mbps (10 Gbps), wireless companies will have already launched 6G. Obviously, 6G will mean much more than just internet speed.
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What will 6G look like?
It’s hard to say what 6G will look like – after all, it doesn’t exist yet. But in media interviews and research papers, wireless companies and academics describe 6G as a fully integrated internet system that enables instant communication between consumers, devices, vehicles and the environment.
We now have the beginnings of the Internet of Things (IoT), which connects smartphones and smart home devices. In time, we will be able to achieve a comprehensive Internet of everything within our reach. But this will depend on future developments such as 6G (or whatever it will be called) and how it works.
Here is a summary of what experts say about 6G.
Speed 1Tbps
Some experts believe that 6G networks will eventually allow for a maximum data transfer rate of 1Tbps on Internet devices.
That’s a thousand times faster than 1Gbps (the highest speed available today on most home internet networks), and it’s 100 times faster than 10Gbps (the hypothetical maximum speed of 5G). So, yes, these are rosy assumptions, and we are still a long way from achieving these speeds.
In essence, however, researchers predict that 6G will emphasise extremely high bandwidth and reliability. With 6G, Internet access will be instantaneous and constant, and for many of us, it will become an integral part of our daily lives.
Terahertz waves
In 2019, the Federal Communications Commission (FCC) opened the gates to the potential future of 6G by allowing companies to start experimenting with what are called “terahertz waves”, or as they are also called “submillimetre waves”. These are radio waves that are in the range of 95 GHz to 3 THz (terahertz).
Terahertz waves have a higher frequency than millimetre waves, which are now perceived as a kind of Holy Grail that will solve the problems of network congestion and bandwidth limitations. Extended versions of 6G depend on millimetre wave bands to transmit huge amounts of data at ultra-high speeds with minimal response times, which will theoretically make it possible to develop things like automated cars and remote surgical operations.
The catch is that millimetre waves only work over short distances, requiring line-of-sight between the transmitter and the user. And terahertz waves have an even shorter range. But if they can be properly harnessed with some new networking approaches, it will open up even more possibilities for doing complex things in a 6G wireless network.
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Artificial intelligence and edge computing
Automated cars and drones, remote-controlled factories, and other uses of artificial intelligence (AI) are generating a lot of discussion as 5G grows. The advent of 6G is expected to make this even more relevant, and experts believe that artificial intelligence will be needed to coordinate and run smoothly.
For example, Razvan-Andrej Stojka and Giuseppe Abreu, researchers at Jacobs University in Bremen, Germany, said that 6G could rely on “collaborative artificial intelligence” to help self-driving cars communicate with each other, manage pedestrians and vehicles, and determine the best routes to take around the city.
It’s part of a new trend called edge computing, which is moving network management away from centralised clouds and towards more localised devices, making things run smoother by reducing the time it takes to answer questions.
Another 6G expert, Roberto Saracco of the European Institute of Innovation and Technology, suggested that things like artificial intelligence and edge computing could help devices become network antennas themselves, keeping your Wi-Fi connection in a seamless, ever-changing connection between users and their devices.
Immersive technologies
Virtual reality is expected to play a big role in 5G. But this is only the beginning. In the 6G era, some experts envision even more exciting technologies such as cellular surfaces, connected implants, and “wireless brain-computer interfaces” (!!!).
Walid Saad, a renowned professor at Virginia Tech and the lead author of the official 6G paper for July 2019, predicts that smartphones will eventually be replaced by smart devices, headsets, and implants that can receive direct sensory data from humans and reproduce their feelings.
Japanese mobile company NTT DoCoMo predicts a complete merger of physical life and cyberspace: “In cyberspace, it will become possible to support human thoughts and actions in real time with the help of wearable devices and micro-devices installed on the human body.”
What is a 6G base station?
A 6G base station is a wireless communication station used to receive and transmit cellular signals. Although there are no base stations for 6G yet, 4G LTE and 5G networks use cell towers and “small cells” – small transmitters installed on street corners and utility poles – to transmit internet and cellular data to our phones and other wireless devices.
What do experts say about 6G?
According to VMware’s Kaniz Mahdi, 6G research is still at a very early stage. It will probably take several more years before the latest technologies, such as millimetre waves, reach their full potential. A newly formed group called the Open Grid Alliance is also looking to “rebuild” the Internet as a whole so that it can better support major applications such as control systems for automated cars and factories.
“We’re looking to evolve the Internet itself,” Mahdi said, noting that VMware is part of the alliance.
As 6G research continues and the technology evolves, many more challenges lie ahead. 6G is expected to provide the communications infrastructure for billions of devices. These devices will require constant power, and most of them will be battery-powered. All of this increased energy production and consumption poses a potential threat to the environment if there are no plans to reduce the carbon footprint of 6G technology.
How we provide sustainable power to all these devices is a big challenge, especially given the need to achieve sustainability in modern technology and power consumption. This needs to be taken into account in the design and development of 6G, so as not to be left with a problem that will need to be solved later!
6G means big changes for the internet and for life itself
Remember: at the moment, 6G is just a bunch of ideas. You don’t need to run out and buy a Tesla or Samsung unmanned brain scanner just yet.
But there is a lot of interest in 6G networks and technologies from companies and governments around the world. There are many of them, including trade groups such as the Next G Alliance and initiatives piloted by Chinese companies such as ZTE and China Unicom. South Korea is also planning to introduce the latest 6G network technologies. And this points to the high expectations of many experts about how the Internet may evolve in the coming years and its potential impact on the way we communicate, work and live.
So, keep your eyes open. Perhaps in about ten years’ time, we will all be able to communicate in Zoom with a new pair of 6G retinal implants.
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