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A North Carolina State University researcher has developed technology designed to allow cellular communication nodes in 5G systems to partition bandwidth more efficiently in order to improve end-to-end data transmission rates. In simulations, the tech is capable of meeting the international goal of 10 gigabits per second in peak performance areas.<\/p>\n
\u201cEnd-to-end transfer means that the technology accounts for all of the connections between a data source and the end user,\u201d says Shih-Chun Lin, an assistant professor of electrical and computer engineering at NC State and author of a paper on the work.<\/p>\n
\u201cMy technology, incorporating both hardware and software, is a framework that takes into account data transfer rates, wired and wireless bandwidth availability, and the power of base stations \u2013 or eNodeBs \u2013 in a 5G network,\u201d Lin says. \u201cIt then uses stochastic optimization modeling to determine the most efficient means of transferring and retrieving data \u2013 and it does this very quickly, without using a lot of computing power.\u201d<\/p>\n
Lin says that simulation testing of the framework is promising, and he and his research team are in the process of building a fully functional prototype.<\/p>\n