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In telecommunications, 6G is the designation for a future technical standard of a sixth-generation technology for wireless communications.. It is the planned successor to 5G (ITU-R IMT-2020), and is currently in the early stages of the standardization process, tracked by the ITU-R as IMT-2030 [1] with the framework and overall objectives defined in recommendation ITU-R M.2160-0.
Potential and current applications include amended mobile web access, IP telephony, gaming services, high-definition mobile TV, video conferencing, 3D television, and cloud computing. LTE (Long Term Evolution) is commonly marketed as 4G LTE , but it did not initially meet the technical criteria of a 4G wireless service, as specified in the 3GPP ...
Doug Castor, InterDigital’s Senior Director and Head of Wireless Research will introduce a keynote session exploring the most compelling use cases for the ‘next G’ and participate in a panel exploring the global standards ushering in new wireless capabilities and services. The following details InterDigital’s participation in the Symposium.
6G connectivity will bring a whole futuristic realm that is yet not possible. Such as holographic, virtual reality, autonomous driving, etc. With ten times the speed of 5G, 6G can prove to blend virtual reality within the real world to give an immersive experience. 6G has many applications in almost every
6G wireless technology is still developing, but scientists say using humans as antennas to power 6G may be the most viable way to harvest additional energy.
The 5GAA has published several roadmaps [25] which highlight the technical potential and challenges of new use cases. Some use cases address high levels of automation. [7] C-V2X offers further use cases including slippery road, roadworks and road hazard information to cars and trucks over hills, around curves and over longer distances than is ...
It also enhances network slicing, allowing highly customized virtual networks for specific use cases such as industrial automation, smart cities, and critical communication systems. 5G-Advanced aims to minimize service interruption times during handovers to nearly zero, ensuring robust connectivity for devices in motion, such as high-speed ...
Polar performance can be improved with successive cancellation list decoding, but its usability in real applications is still questionable due to very poor implementation efficiencies caused by the iterative approach. [3] In October 2016, Huawei announced that it had achieved 27 Gbit/s in 5G field trial tests using polar codes for channel coding.