RIYADH: King Abdullah University of Science and Technology has announced the beginning of a new research era to develop communication technologies from 5G to 6G in collaboration with a foreign company.
The Saudi Press Agency reported that telecommunications experts expect that by 2025, there will be more than 50 billion devices connected to the internet, including devices that control city power grids and devices used for browsing social media and platforms.
KAUST said that this collaboration involves the company’s continuing to fund two communications programs at the university.
The first program focuses on Free-Space Optical communications, while the second revolves around developing Reconfigurable Intelligent Surfaces RIS. Both technologies have been identified by the industry sector as essential for the development of 5G and 6G communication structures.
FSO communications use lasers to transmit signals through outer space, air, to a wireless detector. The signal attenuation rate increases with higher frequency signals, and 6G has the highest frequency so far (at least 100 gigahertz). This technology is used to measure the effects of weather on signal transmission in order to build a comprehensive database of weather conditions in the Kingdom to address the causes of communication outages, the frequency of occurrences, and their duration. With this information, the company and other companies can strategically place their stations and deploy backup systems in case of failure.
Reconfigurable Intelligent Surfaces provide another solution to signal loss, as urban buildings often contain essential reception stations on their rooftops. RIS are made up of thousands of cells, each typically consisting of layers of metal, insulators, and semiconductors, and are expected to greatly contribute to enabling 6G technology access.
According to SPA, KAUST contributes to enhancing the Kingdom’s leadership in developing and adopting 6G communication technologies, attracting global companies to invest in infrastructure and scientists to assess their research by testing optical communication technologies in space and new reconfigurable smart surfaces, and collecting an unprecedented amount of data on weather conditions and communication performance in the Kingdom.