Mobile networking platforms have evolved over the decades from 2G to 5G about every 10 years. The roll-out of 5G networks has already started in several parts of the world and is expected to be finished by the end of 2021. However, given the need for automation and the ever-increasing need for bandwidth, the current capacity is projected to run out of steam by 2030. Global mobile penetration is projected to increase to 700 times if we compare 2010 numbers. With the projected need by 2030. Scientists have already begun to do so. Act on 6G, which is supposed to revolutionize the modern world.

Every generation has taken a huge move forward and implemented new innovations. The time spent establishing a vision and creating technological requirements for each successive generation has been reduced from 15 years for 3 G to 8 years for 5G. Moreover, today’s rapid development in emerging technology such as artificial intelligence (AI), robotics, and automation will transform the direction in wireless communication. These conditions have led to four big megatrends. Heading towards 6 G is linked machines

What to expect from the 6G network?

It is projected that 6G wireless communication powered by the Terahertz band technology will be up to 1,000 significantly more efficient than 5G.6G to allow the flow of knowledge to the five human senses in order to communicate smartly and remotely with the environment. In 6G, we move towards battery-less devices where they are remotely and intelligently operated by the network itself, thereby eliminating the need for battery packs.6G is supposed to accept data speeds up to 1Tbps.

Advantages and features

Nowadays AI is used in different organizations, including broadband networks and utilities. An immense volume of data along with hundreds of billions of connected computers and users needs to be processed and used in 6G networks. Considering AI from the initial process of developing 6G principles and technology, we will have more chances to take advantage of AI to enhance overall network operations in terms of performance, cost, and willingness to offer a range of services.

With unparalleled developments in high-resolution rendering, cellular networks, handheld devices would be able to render 3D hologram display media. A hologram is a next-generation media system that can show gestures and facial expressions by way of a holographic image. The information to be presented can be accessed by way of real-time recording, delivery, and 3D modeling techniques. In order to include hologram image as part of real-time networks, incredibly high data rate transfer, hundreds of times.


There are still several 6 G technology projects going at the moment, and several companies are already beginning early growth. 6 G would catch the interest of all of the industry’s constituents.


  • The University of Oulu in Finland has initiated a 6 G research project named 6Genesis. The project is planned to run for at least eight years and to create ideas that will be ideal for 6 G technologies by almost 2040.


  • South Korea institute is performing experiments on Terahertz band technology for 6G. They aim to make 6G 100 times faster than 4G and 5 times faster than 5G networks.


  • United States of America is aiming to open up 6 G frequency spectrum at frequencies between 95 GHz and 3 THz for early research and development, but this would require clearance from the Federal Communications Commission FCC for frequencies between 95 gigahertz GHz and 3 THz.


  • Samsung has published a white paper entitled “The New Hyper-Connected Experience for Everyone,” which is detailing the company’s vision for the next-generation communications system, specifically 6G. The White Paper released by Samsung discusses numerous topics related to 6G, including technological and social megatrends, emerging facilities, specifications, applicant technology, and the projected timeframe for standardization.