China leapfrogs the world with first 6G experimental satellite after launching over a dozen more satellites into orbit.
The technology is expected to be over 100 times faster than 5G, enabling lossless transmission in space. The space race is on, and China has leapfrogged the world in satellite communication.
Not only did China send 13 more satellites into orbit today, it also successfully completed a world’s first, sending up a sixth-generation communications test satellite, Yicai Global reported.
The devices were put into space by a Long March-6 carrier rocket that blasted off from the Taiyuan Satellite Launch Center, China Central Television (CCTV) reported.
The 6G satellite was among three Chinese satellites successfully launched into orbit, along with 10 commercial remote sensing satellites developed by Argentinian company Satellogic.
It will be used to verify the performance of 6G technology in space as the 6G frequency band will expand from the 5G millimeter wave frequency to the terahertz frequency.
The satellite is the first technical test of terahertz communication’s application in space, according to an academician at the Chinese Academy of Engineering.
The technology is expected to be over 100 times faster than 5G, enabling lossless transmission in space to achieve long-distance communications with a smaller power output.
The technology allows terahertz to be widely used in satellite internet. The satellite carries an optical remote sensing load system to monitor crop disasters, prevent forest fires, check forestry resources, and monitor water conservancy and mountain floods as well as provide abundant satellite images and data.
According to China Daily, 6G technology is still in its infancy and must overcome several technical hurdles in basic research, hardware design, and its environmental impact before the technology becomes commercially available, according to a white paper published by Finland’s University of Oulu.
Moreover, some scientists worried that 6G’s new infrastructure, the increased integration of space-air-ground-sea communication technologies, and the use of a new frequency range to transmit data might affect astronomical instruments or public health, or be too expensive or insecure for researchers to use.
The sharing, analysis and management of research data are crucial for scientific and technological innovation in today’s big data era.
Meanwhile, China’s National Astronomical Observatory said on Friday it will open its 500-meter Aperture Spherical Radio Telescope, the world’s largest single-dish radio telescope, to global scientists next year for research work.
Asia Times / ABC Flash Point News 2020.