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‘Face Recognition’ Artificial Intelligence Program Identifies Galaxies in Deep Space: ClaRAN
'Face Recognition' Artificial Intelligence Program Identifies Galaxies in Deep Space: ClaRAN
The Artificial Intelligence (AI) bot named “ClaRAN” scans images taken by radio telescopes.
A team of researchers have taught an Artificial Intelligence (AI) programm — that used to recognize faces on Facebook — to identify galaxies in deep space. The AI bot named “ClaRAN” scans images taken by radio telescopes. Its job is to spot radio galaxies — galaxies that emit powerful radio jets from supermassive black holes at their centers.
ClaRAN is the brainchild of big data specialist Dr Chen Wu and astronomer Dr Ivy Wong from The University of Western Australia node of the International Centre for Radio Astronomy Research (ICRAR).
Black holes are found at the center of most, if not all, galaxies.
“These supermassive black holes occasionally burp out jets that can be seen with a radio telescope,” said Dr Wong.
“Over time, the jets can stretch a long way from their host galaxies, making it difficult for traditional computer programs to figure out where the galaxy is. That’s what we’re trying to teach ClaRAN to do,” she added.
“ClaRAN” grew out of an open source version of Microsoft and Facebook’s object detection software, said Dr Wu, adding that the program was overhauled and trained to recognize galaxies instead of people.
Fourteen radio galaxy predictions ClaRAN made during its scan of radio and infrared data. All predictions were made with a high ‘confidence’ level, shown as the number above the detection box. A confidence of 1.00 indicates ClaRAN is extremely confident both that the source detected is a radio galaxy jet system and that it has classified it correctly. Credit: Dr. Chen Wu and Dr. Ivy Wong, ICRAR/UWA.
ClaRAN itself is an open source and publicly available on Microsoft-owned GitHub. Traditional computer algorithms are able to correctly identify 90 per cent of the sources.
“That still leaves 10 per cent, or seven million ‘difficult’ galaxies that have to be eyeballed by a human due to the complexity of their extended structures,” Dr Wong said.
“If ClaRAN reduces the number of sources that require visual classification down to one per cent, this means more time for our citizen scientists to spend looking at new types of galaxies,” she added in a paper published in the journal Monthly Notices of the Royal Astronomical Society.”ClaRAN” has huge implications for how telescope observations are processed.
Ref: www.timesnownews.com