Artificial Intelligence Helps Find New Fast Radio Bursts22nd September 2018
Researchers at Breakthrough Listen – the initiative to find signs of intelligent life in the universe – have applied machine learning techniques to detect 72 new fast radio bursts emanating from the “repeater” FRB 121102. Fast radio bursts, or FRBs, are bright pulses of radio emission, just milliseconds in duration, thought to originate from distant galaxies. Most FRBs have been witnessed during just a single outburst. In contrast, FRB 121102 is the only one to date known to emit repeated bursts, including 21 seen during Breakthrough Listen observations made in 2017 with the Green Bank Telescope (GBT) in West Virginia.
The results of this research have been accepted for publication in the Astrophysical Journal and will be available on the arXiv service on Monday, 10 September, 2018. UC Berkeley doctoral student Gerry Zhang is the lead author of the paper; Dr. Andrew Siemion, Bernard M. Oliver Chair for SETI at the SETI Institute, Berkeley SETI Research Center Director and Breakthrough Listen Principal Investigator, co-authored the work.
FRBs from 121102 originate in a dwarf galaxy 3 billion light years from Earth, but the nature of the object emitting them is unknown. There are many theories, including that they could be the signatures of technology developed by extraterrestrial intelligent life.
In August of 2017, the Listen science team at the University of California, Berkeley SETI Research Center observed FRB 121102 for five hours, using digital instrumentation at the GBT. Combing through 400 TB of data, they reported (in a paper led by Berkeley SETI postdoctoral researcher Vishal Gajjar, recently accepted for publication in the Astrophysical Journal) a total of 21 bursts. All were seen within one hour, suggesting that the source alternates between periods of quiescence and frenzied activity.
Now, Zhang and collaborators have developed a new machine learning algorithm, and reanalyzed the 2017 GBT dataset, finding an additional 72 bursts that were not detected originally. They trained an algorithm known as a convolutional neural network to recognize bursts found by the classical search method used by Gajjar and collaborators, and then set it loose on the 400 TB dataset to find bursts that the classical approach missed.
“Gerry’s work is exciting not just because it helps us understand the dynamic behavior of FRBs in more detail,” remarked SETI Institute Bernard M. Oliver Chair for SETI Dr. Andrew Siemion, “but also because of the promise it shows for using machine learning to detect signals missed by classical algorithms.” He went on to say that “these new techniques are already improving our sensitivity to signals from extraterrestrial technologies.”
The SETI Institute has been using IBM Cloud and AI algorithms to analyze over 20 million signals captured by the ATA radio telescopes, using the power of machine learning to greatly improve how anomalous signals of interest can be identified and flagged for further examination. In addition, scientists at the SETI Institute have used use the IBM Cloud to search for wide-band signals from exoplanets of interest, such as the TRAPPIST-1 system, allowing the ATA to be used for entirely new types of observation programs. With a very wide field-of-view and unprecedented instantaneous frequency coverage, the ATA is well positioned to conduct searches for broadband fast transients, including FRBs.
“These results hint that there could be vast numbers of additional signals that our current algorithms are missing and clearly demonstrate the power of applying modern data analytics and AI tools to astronomical research,” said SETI Institute President and CEO Bill Diamond. “Applying these techniques in the search for evidence of extraterrestrial technologies, or technosignatures, is incredibly compelling, together with addressing the tantalizing phenomena of FRBs” he continued.
Additional FRB research may provide clues about whether or not they are signatures of extraterrestrial technology. In the meantime, the SETI Institute’s search to understand the origin and nature of life in the universe, and the evolution of intelligence will continue.
courtesy : SETI