CSIRO acquires device designed to detect invisible infrared light
Summary: Australia’s national science agency, CSIRO, is extending its Earth observation capabilities by acquiring Australia’s first CubeSat designed to detect invisible infrared light.....
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To be known as CSIROSat-1, the new satellite will allow researchers from CSIRO and other institutions to see features that can’t otherwise be seen using satellite imagery in the visible spectrum.
Although the satellite is a pilot and relatively small, the data collected will be valuable for detecting land cover changes such as flooding events or deforestation, detecting bushfires through smoke, and studying cloud formation and the development of tropical cyclones, as well as many other applications.
Traditionally, satellites are about the size of a refrigerator, have long production and assembly schedules, and are expensive to develop and launch.
CubeSats are miniaturised cube-shaped satellites units, with a single unit being 10cm by 10cm by 10cm.
They are lower cost, faster to build and cheaper to launch than larger satellites.
With these low barriers to entry, they are a cost-effective option for trialling new technology and space research in low Earth orbit.
In addition to enabling scientific research, CSIROSat-1 is a demonstration project, aimed at furthering development of the technology to support growth of Australia’s advanced manufacturing, imaging and data processing capabilities for small satellite systems.
Expected to be launched in 2020, the $2 million project will be funded by CSIRO, a grant from the Science and Industry Endowment Fund, and in-kind support from industry partners.
CSIRO chief executive Larry Marshall said CSIROSat-1, and the data infrastructure supporting it, would add another level of capability to Australian science.
“Innovation happens at the intersection of people and disciplines – CSIRO’s strategy is to drive a deeper sharing of our world class infrastructure with the entire system,” said Marshall.
“Space itself is big and Australia is comparatively small – we have to work together to make our mark as a nation.
“Our role as Australia’s national science agency is to help create the industries of the future through excellent science,” he said.
“Technology projects such as CSIROSat-1 will help support the Australian Space Agency’s goal of tripling the size of the domestic space sector to $10-12bn by 2030, bringing economic returns and improving the lives of Australians,” said Marshall.
Director of CSIRO’s Centre for Earth Observation Alex Held said South Australia-based start-up Inovor Technologies would design, assemble and build CSIROSat-1.
“CSIRO is committed to collaborating and fostering relationships across the space sector, and with start-ups in particular,” said Held.
“For the CSIROSat-1 project we’re excited to be working together with our build partner, Inovor Technologies.
“It’s critical to engage on these types of technology projects to support local capability and nurture the development of the Australian space industry,” said Held.
Inovor Technologies provide space technologies and satellite mission solutions and are ideally placed to build the satellite.
CEO of Inovor Technologies Matt Tetlow said CSIROSat-1 would be a nanosatellite made up of three cubes, stacked one on top of the other, about the same size as a loaf of bread.
“CSIROSat-1 will carry a sensor with infrared imaging capability, the first time an Australian satellite has operated in this spectrum.
“In addition to collecting information about Earth, it will be a platform for developing advanced on-board data processing capabilities,” said Tetlow.
Other collaborators and research partners in the project include the University of New South Wales – Canberra, the Australian National University, and Defence Science and Technology Group.
Source : 06/12/2018, http://www.manmonthly.com.au/invisible+infrared+light+device+ No Ratings have been done