NASA’s Perseverance rover has accomplished its first-ever drive on Mars totally deliberate by synthetic intelligence, the area company introduced.
Autonomous applied sciences like this, he added, may assist future missions function extra effectively, reply to hazardous terrain, and “improve science return” as spacecraft enterprise farther from Earth. “It is a robust instance of groups making use of new know-how rigorously and responsibly in actual operations.”
Those plans are sent to Mars via NASA’s Deep Space Network, where the rover executes them, according to NASA.
Perseverance’s recent AI-driven test drive was led by NASA’s Jet Propulsion Laboratory in California, which built and operates the car-sized rover, in collaboration with Anthropic using the company’s Claude AI models.
To plan the routes, the AI analyzed the same images and data used by human planners. According to NASA, this included images captured by a camera aboard the agency’s Mars Reconnaissance Orbiter as well as terrain-slope data from computer models. From this information, the AI identified key surface features such as rocks, steep slopes and boulder fields, then mapped out a route for the rover to follow.
That route included navigation waypoints, which are fixed surface coordinates that the rover is instructed to reach in sequence. In the video above from the rover’s Dec. 10 drive along the rim of Jezero Crater, a waypoint appears as a blue circle. Pale blue lines trace the rover’s wheel tracks, while black lines show the alternate route options the rover evaluated, NASA said.
During the two test drives, Perseverance traveled nearly 1,500 feet (456 meters), the space agency said. Before sending commands to Mars, the mission team extensively tested the instructions using a detailed “digital twin” of Perseverance to confirm the rover could safely carry out the plan, according to the statement.
“The fundamental elements of generative AI are showing a lot of promise in streamlining the pillars of autonomous navigation for off-planet driving,” Vandi Verma, a space roboticist at JPL and a member of the Perseverance engineering team, said in the statement.
“We are moving towards a day where generative AI and other smart tools will help our surface rovers handle kilometer-scale drives while minimizing operator workload,” she added, “and flag interesting surface features for our science team by scouring huge volumes of rover images.”
