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NASA has a new system to spot asteroids that might hit the Earth

08 déc. 2021 Hi-network.com

NASA has unveiled a new algorithm called Sentry-II that will help it better evaluate the probabilities of thousands of near-Earth astroids actually falling to Earth.

NASA is expecting a "rapid uptick" in new near-Earth astroid (NEA) discoveries thanks to new satellites coming online in coming years, such as NASA's upcoming Near-Earth Object Surveyor space telescope and Chile's Vera C. Rubin Observatory. It says new NEA discoveries currently happen at a rate of 3,000 per year. 

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Sentry-II is a next-generation impact-monitoring system that could support efforts like the DART, or Double Asteroid Redirect Test (DART), mission that headed to space on a SpaceX Falcon 9 in November. 

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The spacecraft will reach the Didymos asteroid system between September 26 and October 1, 2022. It will be intentionally slamming into the moonlet Dimorphos at roughly four miles per second (four kilometers per second) according to NASA. 

As NASA notes, Asteroids move fairly predictably around the solar system and follow "knowable orbital paths". 

"But sometimes, those paths can come very close to Earth's future position and, because of small uncertainties in the asteroids' positions, a future Earth impact cannot be completely ruled out," NASA says. 

Sentry-II, described in a new paper published by The American Astronomical Society, succeeds the first Sentry NEA monitoring system, which was developed by NASA's Jet Propulsion Laboratory in 2002. 

The original Sentry could calculate impact probabilities for a newly discovered asteroid over the next century, while Sentry-II can quickly calculate impact probabilities for all known NEAs. There are currently around 28,000 already-discovered NEAs. 

Sentry-II allows NASA to to confidently assess all potential impacts with odds as low as a few chances in 10 million.       

Sentry-II can also account for special cases. Whereas Sentry could account for gravitation pull from the Sun and nearby planets, it couldn't account for non-gravitational forces, such as thermal forces caused by the Sun's heat. 

"As an asteroid spins, sunlight heats the object's dayside. The heated surface will then rotate to the asteroid's shaded nightside and cool down," NASA's JPL explains. 

"Infrared energy is released as it cools, generating a tiny yet continual thrust on the asteroid. This phenomenon is known as the Yarkovsky effect, which has little influence on the asteroid's motion over short periods but can significantly change its path over decades and centuries." 

The inability for Sentry to calculate the Yarkovsky effect means NSA engineers needed to do time-consuming manual analyses, according to Davide Farnocchia, a navigation engineer at JPL who helped develop Sentry-II. 

"Every time we came across a special case -like asteroids Apophis, Bennu, or 1950 DA -we had to do complex and time-consuming manual analyses. With Sentry-II, we don't have to do that anymore," said Farnocchia. 

Sentry also couldn't accurately impact probabilities of astroids that travel extremely close to Earth. 

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Sentry-II removes the algorithm's reliances on pre-determined assumptions behind how Sentry modeled an asteroid's most likely orbit.  

"Sentry-II has a different philosophy," explains NASA JPL. "The new algorithm models thousands of random points not limited by any assumptions about how the uncertainty region may evolve; instead, it selects random points throughout the entire uncertainty region. Sentry-II's algorithm then asks: What are the possible orbits within theentireregion of uncertainty that could hit Earth?"

Farnocchia compares the process of identifying a likely orbit as similar to searching for needles in a haystack, where the needles are possible impact scenarios and the haystack is the uncertainty range. The more uncertainty in an asteroid's position, the bigger the haystack. 

"Sentry would randomly poke at the haystack thousands of times looking for needles located near a single line stretching through the haystack," says NASA JPL. "The assumption was that following this line was the best way of searching for needles. But Sentry-II assumes no line and instead throws thousands of tiny magnets randomly all over that haystack, which quickly get attracted to, and then find, the nearby needles." 

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