Perseverance - Historic first motorized flight on other planet
The helicopter Ingenuity has made its first flight on Mars, the first powered flight above the surface of a planet other than Earth. This was announced by the US space agency NASA.
The helicopter Ingenuity has made its first flight on Mars, the first powered flight above the surface of a planet other than Earth. This was announced by the US space agency NASA.
The helicopter Ingenuity has made its first flight on Mars, the first powered flight above the surface of a planet other than Earth. This was announced by the US space agency NASA.
"Altitude data confirms that Ingenuity has performed the first flight of a powered craft on another planet," NASA's Jet Propulsion Laboratory said. That's the lab that manages robotic missions.
"It's true, it's really true," said MiMi Aung, project manager at the control center in Pasadena, USA, after the helicopter's data arrived on Earth and was analyzed. That happened about three hours after the flight took place. "We can now say that people have flown a rotorcraft on another planet," he said.
The helicopter weighs about 1.8 kilograms and looks like a drone (the picture does not represent the helicopter). The aircraft was launched in late July in the hold of the Mars rover Perseverance. The rover successfully landed in the Jezero crater on February 18 after a journey of 203 days and about 472 million kilometers.
The craft took off, hovered briefly at an altitude of 3 meters, and then landed back on the planet's surface. The craft was sent instructions from Earth several hours before the flight, but flew autonomously and analyzed its position against the surface on its own.
Ingenuity forwarded a black and white photograph showing the shadow of the craft on the Martian surface. A day after the flight, once the batteries have been recharged, the helicopter will forward a color photo of the horizon. This was taken by a different camera.
The Perseverance made a recording of the flight. The full video will be forwarded in the coming days, said Elsa Jensen, who is in charge of the rover's cameras.
The first flight was actually scheduled for April 11, but had to be postponed due to the discovery of a technical problem during a final test. Flight control had to remotely install new software on board, after first testing it on Earth.
The low air pressure on the surface of Mars is comparable to the pressure at 30 kilometers altitude on Earth. Earthly helicopters cannot fly that high. Although gravity there is less than on Earth, NASA's teams had to develop an ultralight aircraft, whose rotor blades spin much faster than a standard helicopter.
Recharging the batteries is also difficult; Mars gets about half of Earth's solar energy during the day. At night, the components on board are exposed to temperatures as high as 90 degrees below zero. Such temperatures could mean the death warrant for batteries and other electronics.
If the technology proves to work on Mars, helicopters could help explore an alien destination much faster.
More tests will take place with Ingenuity in the coming weeks. Now that the first flight was a success, the second may take place no more than four days later. Up to five flights are planned, with increasing difficulty.
"When we get to the fourth and fifth flight, we will have fun," the project leader said. "We really want to push our aircraft to its limits" and "take risks."
The life of the Mars helicopter will be determined by how it lands each time, MiMi Aung said. Which means as much as: whether the aircraft manages not to crash.
In terms of historical importance, the operation on Mars can be compared to the first flight of a motorized craft on Earth, in 1903, by the Wright brothers. A piece of fabric from that aircraft, which took off in North Carolina more than a century ago, is on board Ingenuity.
The development and construction of the Perseverance rover took eight years and cost about 2.2 billion euros. On Mars, the rover must search for traces of past microbial life and also investigate the planet's climate and geology.
Latest insights & stories
MOBILIDATA
In Flanders, we strive to work on tomorrow’s mobility today. That includes the Mobilidata programme. With this programme, various levels of government, companies and researchers are jointly developing innovative, technological traffic solutions for road users, such as better route advice, tailored traffic notifications and intelligent traffic lights. New connected mobility and know-how do not stop at our national borders however, so international collaboration is needed to exchange knowledge and set up joint projects to implement it.
Digital sovereignty guarantees data security in the public cloud
When companies consider migrating to the public cloud, they are sometimes held back by security risks and compliance and governance constraints. Thus the interest in digital sovereignty, Gwénaëlle Hervé, Public & Sovereign Cloud Lead at Proximus NXT, explains.
ROAD SAFETY
Since 2018, the number of traffic casualties in Flanders has risen again. Currently, the figures are stagnating, but the risk of accidents with injuries remains high for vulnerable road users in Flanders. And that while traffic should be safe for all users and modes. We want to change this by focusing on transparent policy, training on safe behavior, infrastructure improvements, legislation and enforcement.