An experiment on a Martian analogue in northern Chile tested the utility of teaming planetary robots with artificial intelligence to focus the search for life in the most efficient way.

In an article published in Nature Astronomy, an interdisciplinary study led by Kim Warren-Rhodes, Principal Investigator at the SETI Institute, mapped the scant life hidden in salt domes, rocks and crystals in the Salar de Pajonales, on the border between the Chilean desert of Atacama and the Altiplano.

Next, Warren-Rhodes worked with co-investigators Michael Phillips (Johns Hopkins Applied Physics Laboratory) and Freddie Kalaitzis (University of Oxford) to train a machine learning model that would recognize the patterns and rules associated with their distributions so that they could learn to predict and find those same distributions in data on which he had not been trained.

In this case, by combining statistical ecology with artificial intelligence/machine learning, scientists were able to locate and detect biosignatures up to 87.5 % of the time (versus 10 % using random search) and decrease the area needed to search by up to 97 %.

Source: dpa

(Reference image source: file)

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China will launch its first dedicated heliophysical mission in mid-2022: the Advanced Space-Based Solar Observatory (ASO-S).

The satellite will operate in a synchronous orbit with the sun 720 kilometers above Earth to keep a close watch on the Sun 24 hours a day. With a total mass of about 1,000 kilograms, the satellite is expected to operate for at least four years, according to the Purple Mountain Observatory of the Chinese Academy of Sciences.

The probe’s main scientific goals include observing the sun’s magnetic field and two major eruptive phenomena, or starbursts, which are solar flares and coronal mass ejections (CMEs). It will implement three payloads, including the Full Disc Vector Magnetograph, Hard X-ray Imager, and Lyman-alpha Solar Telescope.

So far, the sun is the only fixed star that humans can study in detail. The vast majority of its radiation is blocked by the Earth’s atmosphere. Only by sending probes into space can a complete image of the sun be presented for further study.

As the sun’s temperament varies in an 11-year cycle and the star enters solar cycle 25, it is estimated that it will reach its maximum radiation around 2025. The solar probe can help obtain detailed records of solar activity during its ascent to peak years, said Gan Weiqun, a researcher at the institute.

The satellite will also realize its potential in predicting space weather. CMEs (Coronal Mass Ejections) can be detected at least 40 hours before arrival by the observatory, which is expected to further facilitate early warnings of damage to Earth’s electromagnetic environment.

Since the 1960s, more than 70 satellites related to solar observation have been launched worldwide. The ASO-S is expected to fill China’s gap in this field, according to Gan.

K. Tovar

Source: ECNS

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