NASA’s Historic Mars Helicopter Ingenuity Grounded for Good After 72 Flights

Reuters
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WASHINGTON—NASA said on Thursday its Mars robot helicopter Ingenuity, the first vehicle to achieve powered, controlled flight on another world, has been grounded for good after flying dozens of times over three years, ending a landmark mission that far exceeded all expectations.

The fate of Ingenuity was sealed when imagery beamed back to Earth after its 72nd and final flight on Jan. 18 showed that a portion of one of the miniature whirligig’s twin rotor blades had broken off, leaving it incapable of further operation, NASA officials said.

“It is bittersweet that I must announce that Ingenuity, the ‘little helicopter that could’—and it kept saying, ‘I think I can, I think I can’—well, it has now taken its last flight on Mars,” NASA Administrator Bill Nelson said in a video posted on social media.

What was planned as a 30-day technology demonstration of no more than five short flights ended up stretching well beyond the expectations of engineers who designed and built the helicopter at NASA’s Jet Propulsion Laboratory (JPL) near Los Angeles.

Ingenuity ultimately buzzed over the Martian terrain 14 times farther than originally planned, logging more than two hours, eight minutes of flight time and covering a distance of 10.5 miles (17 km) through all 72 flights. Its peak altitude was measured at 78.7 feet (24 meters).

The rotor-craft was carried to the Red Planet strapped to the belly of NASA’s Perseverance rover, which landed three years ago on the floor of a vast Martian basin called Jerezo Crater on a separate mission aimed primarily at collecting surface samples for eventual return to Earth.

Martian Wright Brothers Moment

When the 4-pound (1.8-kg) rotor craft performed its modest, debut takeoff and landing in the thin Martian atmosphere on April 19, 2021—a flight of 39 seconds—it was hailed as an seminal feat of interplanetary aviation.

NASA likened Ingenuity’s achievement at Jerezo Crater to the historic first controlled flight of the Wright brothers’ motor-driven airplane near Kitty Hawk, North Carolina, in December 1903.

Over time, JPL continued to send the helicopter on progressively more ambitious flights, pushing its capabilities.

Wheel tread marks are left in the soil of Jezero Crater on Mars, as NASA's Mars rover Perseverance drives on Martian surface for the first time, on March 4, 2021. (NASA/JPL-Caltech/Handout via Reuters)
Wheel tread marks are left in the soil of Jezero Crater on Mars, as NASA's Mars rover Perseverance drives on Martian surface for the first time, on March 4, 2021. NASA/JPL-Caltech/Handout via Reuters

The end came after JPL teams began flying Ingenuity into a particularly barren, featureless area of Mars, testing the limits of an auto-navigational system that depends on visible landmarks for aviation guidance, according to Teddy Tzanetos, JPL’s Ingenuity project manager.

The U.S. space agency said Ingenuity made an “emergency landing” during what became its penultimate flight on Jan. 6, apparently setting itself down more abruptly than planned due to navigational disorientation.

When JPL controllers sought to perform a short, vertical flight 12 days later to determine Ingenuity’s location, data shows it rose off the ground, hovered briefly, then began a descent before losing contact with the rover, which serves as its communications relay with Earth.

Images the helicopter sent days later captured the shadow of its damaged rotor blade, apparently broken during its final touchdown, Mr. Tzanetos told reporters.

Engineers believe guidance difficulties posed by the “bland” terrain where Ingenuity was flying resulted in a loss of equilibrium that caused the vehicle to suddenly tilt or move sideways, which in turn led to the rotors striking the surface, Mr. Tzanetos said.

Ingenuity, resembling a box with four legs and parasol of rotor blades and solar panel, will live out its final days idle but emitting periodic blips of data before losing contact with the rover as Perseverance moves farther away.

Still, NASA officials celebrated Ingenuity’s exploits as paving the way for a new mode of aerial exploration on Mars and elsewhere in the solar system, such as Saturn’s moon Titan, for which a rotor-craft called Dragonfly is under development.

Building a helicopter to fly on Mars posed major engineering hurdles.

While Mars possesses much less gravity to overcome than Earth, its atmosphere is only 1 percent as dense, making it especially hard to gain aerodynamic lift. Thus, Ingenuity was fitted with rotor blades that are larger and spin far more rapidly than would be needed on Earth for a similar craft of its size.

The small, lightweight vehicle also had to withstand punishing cold, with nighttime temperatures dipping as low as 130 degrees below zero Fahrenheit (minus 90 Celsius).

Engineers will run final tests on Ingenuity and download remaining images from its onboard computer, NASA said.

By Joey Roulette and Steve Gorman