What is 6G Technology?
6G Technology (sixth generation wireless) is the successor to 5G cellular technology. 6G networks will be able to use higher frequencies than 5G networks and provide significantly higher power and much lower latency. One of the goals of the 6G Internet is to enable one microsecond-latency communication. That means it will be able to provide 1000 times faster – or 1/1000th latency than one-millisecond throughput.
The 6G technology market is expected to make major improvements in Imaging, Presence Technology, and Location Awareness. Working with artificial intelligence (AI), 6G’s computational infrastructure will automatically determine the best location for computing; These include automated computing decisions regarding data storage, processing, and sharing.
What is the advantage of 6G over 5G?
6G is expected to support data rates of 1 terabyte per second. Access points will be able to serve multiple clients simultaneously through OFDMA ( orthogonal frequency-division multiple access ). This level of network capacity and latency will increase the effectiveness of 5G applications and increase the ability to support innovative applications in wireless connectivity, consciousness, sensing, and imaging. Which will help in the development of artificial intelligence (AI) capabilities.
6G higher frequencies will be able to provide significantly better throughput and higher data rates. Combinations of sub-mm waves (e.g., wavelengths smaller than one millimeter) and frequency selectivity for determining the rate of relative electromagnetic absorption can lead to significant advances in wireless sensing technology.
Everything from Mobile Edge Computing (MEC) will be built into the 6G network, although it will be connected to the existing 5G network. EDGE and Core computing will work more seamlessly as part of a joint communication/computing infrastructure framework when setting up 6G networks. This approach is expected to add many potential benefits as 6G technology becomes more active in the near future, including improving the capabilities of AI.
How fast is 6G internet?
It is not yet clear what the speed of the 6G will be, but it is estimated that it will be 100 times faster than the 5G. The final standards for 6G connection speeds will depend on the standards set by the International Telecommunication Union (ITU). The company has set the standard for 5G (IMT-2020) after more than eight long years of operation, and a similar process for 6G is expected to begin soon.
However, the company has given other experts the freedom to figure out how fast 6G will be. Notable among these is the independent expert Mahyar Shirvanimoghaddam of the University of Sydney, who claims that it can deliver speeds of 1 terabyte per second or 8,000 gigabits per second. Forget about downloading a movie from Netflix with 5G in seconds, this speed allows you to download 142 hours of video in seconds.
What will 6G be used for?
6G is basically high speed and low latency; Like 5G, but better. Experts point out that 6G technology will move the world beyond wired networks, meaning that 8G will be a completely wireless network. In this technology, the devices will act as antennas using a decentralized network, which will not be under the control of any single operator.
While we expect that this technology will evolve from 5G, the use of 6G in smart cities from autonomous cars and drones will increase exponentially. At the same time, it could give rise to sci-fi applications and extensively developed touch control systems, such as integrating our brains with computers. NTT DoCoMo says 6G will enable people to manage cyberspace in real-time through handheld devices and micro-devices embedded in the human body. For similar reasons, this technology is being referred to as “sensory teleportation”.
The goal of 6G technology is to turn science fiction into science fiction, saying that speeds above 100 Gbps can create potentially sensitive interfaces that look like real life and will be used more through smart glasses or contact lenses. It will prioritize low power consumption for over-the-air cargo and coverage that can be extended across the ocean and even into space.
Who is working on 6G technology?
Ordinary people in China, Japan, Korea, America, and Australia as well as several European countries are currently using 5G. Bangladesh also plans to launch 5G on a trial basis by December 2021.
The second decade of the twenty-first century in the history of the world will be written for the creation of 5G technology, just as the third decade will be considered for 6G development. Several countries, such as China, Japan, South Korea, the United States, and Finland, have already begun to embrace 6G. Starting from research and development, these countries have started investing in the necessary fields like modern equipment and engineering.
At the moment, every country wants to see 6G technology made by their own hands before any other country. The above countries are at the forefront of this list and are working on this not only on Earth but also in space. According to the report, some countries have modified their satellites for 6G connectivity and new satellites will be launched if required. The most powerful country in the world does not want the power of 6G technology to reach the hands of any other government before them, this gives an idea about the power of this technology.
What is the future of 6G technology?
About 10 years ago, the phrase “Beyond 4G (B4G)” was coined to imply the need to advance the evolution of 4G beyond the LTE standard. It was not clear at the time what 5G could include, and only pre-standard R&D level prototypes were working at the time. The term B4G has been around for some time, which refers to what is possible and potentially useful outside of 4G. Ironically, LTE standards are still evolving and some aspects are being used in 5G.
Like B4G, Beyond 5G (B5G) is seen as the first way to advance 6G technology, which will be improved by replacing the fifth-generation capabilities and 5G applications. Many personal wireless systems of 5G, involving LTE, 5G, and Edge computing for enterprise and industrial customers, will play a role in implementing the 6G grounding process.
The Next-6G generation wireless networks will take this one step further. They will create a web of communication providers many of them will be self-providers. The way photovoltaic co-produces between solar power systems and smart grids.
Data centers are already undergoing major changes due to 5G, such as virtualization, programmable networks, EDGE computing, and the ability to support each other between public and private networks.
The 6G radio network will collect the communication and information required for data collection. However, the 6G technology market requires a systematic approach. This will include Data Analytics, AI, and next-generation computing power using HPC and Quantum computing.
In addition to the profound changes in the RAN, the core communication network fabric will also be transformed. Because many new technologies are being combined with 6G. Significantly, AI will take center stage with 6G. Also, the so-called Nano-Core is likely to emerge as a simple computing core that incorporates HPC and AI components. Assuming this approach is implemented, the nano-core will not need to be a physical network component but will be a logical collection of computational resources shared by many networks and systems.
6G networks will generate significantly more data than 5G networks, and computing will evolve to include integration between EDGE and core platforms. In response to those two changes, data centers need to be developed. The 6G capability in sensing, imaging, and location determination will create a lot of data that needs to be managed by network owners, service providers, and data owners.