Take a 3D tour of Mars and follow NASA’s Perseverance Rover


NASA’s Mars Perseverance rover is shown at its landing site in Jezero Crater in this view from the “Explore with Perseverance” 3D web experience. This interactive web tool presents a 3D model of the rover on a 3D landscape created from real images taken by Perseverance. Credit: NASA / JPL-Caltech

Two interactive web experiences let you explore the Martian surface, as seen by the cameras aboard the rover and orbiters flying above.

It’s the next best thing to be sure ">March: Two interactive online experiences allow you to discover Jezero Crater – the landing site and place of exploration for ">Nasathe Perseverance rover – without leaving our planet.

A new experience, called “Explore with perseverance”Allows you to follow the rover as if you were on the surface of Mars. Another interactive – “Where is the perseverance?”- shows the current location of the Ingenuity Mars rover and helicopter as they explore the red planet. It’s updated after every ride and flight and lets you track the progress of Perseverance and Ingenuity, as they travel on and above the Red Planet.

“This is the best available reconstruction of what Mars looks like.”
JPL software engineer Parker Abercrombie

Explore with Perseverance is carried out primarily with images taken by the rover from various points of view, with additional images from the HiRISE (High Resolution Imaging Experiment) camera aboard NASA’s Mars Reconnaissance Orbiter.

“This is the best available reconstruction of what Mars looks like,” said Parker Abercrombie, a senior software engineer who heads software development at NASA’s Jet Propulsion Laboratory in Southern California. The agency’s Mars Public Engagement team recruited Abercrombie and colleagues, who are working on similar tools for the mission team, to develop an audience-friendly experience by stitching and reconstructing the Perseverance and HiRISE images.

The team plans to update the site regularly with new views of the spacecraft and rover and new points of interest, as they are found. For example, says Abercrombie, “we can highlight rocks and other scientifically interesting features, or Ingenuity helicopter flight locations.”

Abercrombie thinks the site will help people understand the prospect as if they were on Mars. “Sometimes it is difficult for people to understand the location and distance of the images of Mars. It’s not like here on Earth, where you can get your bearings by looking at trees and buildings. With Martian terrain, it can be very difficult to understand what you are seeing. “


This video clip of the interactive 3D experience, “Explore With Perseverance,” shows how users can follow the activities of the Mars rover at Jezero Crater. The web tool presents a 3D model of the rover on a 3D landscape created from real images taken by Perseverance. Credit: NASA / JPL-Caltech

The dashboard makes it easy for parents and teachers to share 3D views with children, supporting them in exploring Perseverance.

The 3D tool is based on the Advanced Scientific Targeting Tool for Robotic Operations (ASTTRO) that the rover’s science team uses to select interesting targets for the rover to study – but has been modified to make it more user-friendly.

“It’s a unique challenge to set things up so that people can navigate in a way that they understand, as users have different experiences using 3D environments,” Abercrombie said. “This is a great opportunity for the public to follow the mission, using the same type of visualization tools as the mission scientists. “

The Curiosity mission has a to live built by the same team.

A Mars Map of Rover and Helicopter Travel

“Where is the persistence? map lets you better see what we’re doing and where we’re going, ”said Fred Calef, mapping specialist at JPL. It’s also based on ASTTRO, and Calef notes that you’ll get the data almost as fast as engineers and scientists. Plus, you’re using pretty much the same software that the team uses, “so everyone can explore the way we explore in almost the same way,” Calef explains as he zooms in, zooms out and pans.

The map shows the rover’s route and stopping points with markers indicating Martian day, or sol, and you’ll get a glimpse of where Perseverance and Ingenuity might be heading next. Terrain maps like this allow scientists to spot interesting places to search for possible evidence of ancient life, and you can share the journey.

When Ingenuity flies, it’s usually an explosion of activity, then a lull for a few weeks. The rover, says Calef, “rolls more often, but not as far, going about 130 meters [142 yards] on its longest trip (ground) to date. When we find a geologically interesting place, we stop for about a week to check it out.

Learn more about the mission

You can get more information about Curiosity’s activities on Mars at Mars / Curiosity Science Lab website, and follow the latest news on Perseverance at Site March 2020 / Perseverance.

A key focus of Perseverance’s mission to Mars is astrobiology, including looking for signs of ancient microbial life. The rover will characterize the planet’s past geology and climate, pave the way for human exploration of the Red Planet, and be the first mission to collect and cache Martian rock and regolith.

Subsequent NASA missions, in cooperation with ESA, would send spacecraft to Mars to collect these sealed surface samples and send them back to Earth for further analysis.

The Mars 2020 Perseverance mission is part of NASA’s approach to exploring the Moon to Mars, which includes Artemis missions to the Moon that will help prepare for human exploration of the Red Planet.

JPL, which is managed for NASA by Caltech in Pasadena, Calif., Built and manages the operations of the Perseverance rover.


Margie D. Carlisle