National Aeronautics and Space Administration Logo
Follow this link to skip to the main content NASA Banner
Solar System Exploration
Science & Technology
Flight Testing for Mars: Dryden F-18 Flying MSL Radar
NASA Dryden's F-18 852
NASA Dryden's F-18 852 makes a 40-degree dive towards Rogers Dry Lake at Edwards AFB with the Mars Science Laboratory's landing radar during verification and validation flights. Project flights have included vertical 90-degree dives. (NASA / Carla Thomas)

By Gray Creech
NASA Dryden Public Affairs

June 21, 2011: Southern California's high desert has been a stand-in for Mars for NASA technology testing many times over the years. So it was again as NASA's Dryden Flight Research Center and Jet Propulsion Laboratory flight-tested the next Mars rover's landing radar, using an F/A-18 aircraft.

The Mars Science Laboratory, or MSL mission, is following up the grand success of the twin Mars Exploration Rovers, Spirit and Opportunity, which tirelessly explored Mars for the last seven years. The MSL mission is part of NASA's Mars Exploration Program, a long-term robotic exploration effort of the red planet. The mission is managed by JPL in Pasadena, Calif.

NASA research pilot Nils Larson and flight engineer Mike Holtz
NASA research pilot Nils Larson and flight engineer Mike Holtz review the flight test cards before a research flight in a NASA F/A-18. (NASA / Tom Tschida)

NASA Dryden's F/A-18 carried a Quick Test Experimental Pod, or QTEP, that housed the MSL test radar, attached underneath the aircraft's left wing. The flight profile was designed to have the F/A-18 climb to 40,000 feet, then make a series of subsonic, stair-step dives over Rogers Dry Lake at angles of 40 to 90 degrees in order to simulate what the MSL's radar will see during entry into the Martian atmosphere. The F/A-18 pulled out of each dive at 5,000 feet.

"Not only has the working relationship between Dryden and JPL been exemplary, but we're proving the viability of suborbital flight testing of critical space hardware," says Mike Holtz, Dryden's MSL project lead and F/A-18 backseat flight test engineer. "This has been a unique opportunity to test equipment in a representative environment prior to the space flight hardware blasting off to Mars," Holtz says.

Data collected by these flights will be used to finesse the MSL's landing radar software to help ensure that it calibrated as accurately as possible.

The current MSL landing radar flight tests with the F/A-18, which concluded June 20, focused on the on-chute acquisition portion of the MSL's entry into the Martian atmosphere, when the spacecraft is suspended from its parachute. Last June, NASA Dryden supported MSL radar testing aboard a helicopter at Dryden, which focused on the powered descent portion of the MSL flight profile.

Overall, the flight envelope for MSL radar operations is much larger than it was for the Mars Exploration Rovers and Phoenix Lander, due to the MSL radar operating at higher altitudes than either of its predecessors. Those previous Mars missions tested the landing radar with only a helicopter, but testing with both the helicopter and the F/A-18 is required this time around.

The test results will be analyzed to verify the radar performs as expected throughout its flight envelope. If any unexpected performance is uncovered, the JPL team has the ability to modify the parameters and/or software any time leading up to the rover's scheduled landing in August 2012.

NASA Dryden's F-18 852
NASA Dryden's F-18 852 performs a roll during a dive towards Rogers Dry Lake at Edwards AFB with the Mars Science Laboratory's landing radar as part of verification and validation flight tests. (NASA / Carla Thomas)

"It was very gratifying to finally see wheels-up on the F/A-18 with the MSL-configured pod after almost five years of development," says Steven Lee, JPL's MSL guidance, navigation and control lead. "Our flights have gone well and we've already collected some very valuable data. We look forward to continuing this exciting joint Dryden/JPL effort."

NASA Dryden's part in the MSL program has included instrumentation integration, project planning, flight article environmental testing, airspace coordination, logistical support for the QTEP and helicopter operations that were conducted last year, and flight test expertise during JPL-conducted technical reviews.

Dryden support during the current flight phase of the project included precision flying of the center's F/A-18 aircraft. The MSL radar was controlled during flight by Holtz aboard the aircraft. Dryden's mission control rooms have been fully utilized as well, providing monitoring of on-board instrumentation and downlink of in-flight MSL radar operation telemetry and video from chase aircraft and ground-based long-range cameras.

"This cooperative relationship between JPL and Dryden serves as a fine example of inter-center relationships," Holtz said. "Mutual respect and dedication to the project has fostered a productive work environment and has allowed us to work through some challenging problems and set-backs."

The MSL rover, named Curiosity, is scheduled for shipment from JPL to NASA's Kennedy Space Center in Florida in late June where it will be readied for a launch window between Nov. 25 and Dec. 18, 2011. The rover should arrive at Mars in August 2012. After Curiosity lands on Mars, researchers will use the rover's 10 science instruments during the following two years to investigate whether the landing area has ever offered environmental conditions favorable for microbial life.

Last Updated: 27 June 2011

Science Features
Astrobiology
Astronomy Features
Power
Technology Assessment Reports
Sungrazing Comets

 

Best of NASA Science
NASA Science Highlights
Technology Features
Propulsion
Lectures & Discussions

Awards and Recognition   Solar System Exploration Roadmap   Contact Us   Site Map   Print This Page
NASA Official: Kristen Erickson
Advisory: Dr. James Green, Director of Planetary Science
Outreach Manager: Alice Wessen
Curator/Editor: Phil Davis
Science Writer: Autumn Burdick
Producer: Greg Baerg
Webmaster: David Martin
> NASA Science Mission Directorate
> Budgets, Strategic Plans and Accountability Reports
> Equal Employment Opportunity Data
   Posted Pursuant to the No Fear Act
> Information-Dissemination Policies and Inventories
> Freedom of Information Act
> Privacy Policy & Important Notices
> Inspector General Hotline
> Office of the Inspector General
> NASA Communications Policy
> USA.gov
> ExpectMore.gov
> NASA Advisory Council
> Open Government at NASA
Last Updated: 27 Jun 2011