WASHINGTON – NASA said this week it has repositioned its orbiting Mars Odyssey spacecraft so it can more quickly relay the results of a harrowing landing attempt next month by a spacecraft carrying the Curiosity rover.
Separately, NASA officials declined to estimate the odds for a successful landing next month.
Just before the attempt to land the Mars Science Laboratory carrying Curiosity on Aug. 6, mission managers said Earth will be positioned below the Martian horizon as the spacecraft descends toward its landing site near Gale Crater. While the spacecraft can send limited data as it approaches the thin Martian atmosphere, the repositioned Odyssey spacecraft that has been orbiting Mars since 2001 is now in a better position to relay confirmation of a landing back to NASA controllers at the Jet Propulsion Laboratory (JPL, Pasadena, Calif.).
Without the repositioning maneuver on Tuesday (July 24), NASA officials said Odyssey would have arrived over Curiosity’s landing site about two minutes after a sky crane tries to lower it to the surface. A six second thruster burn moved Odyssey about six minutes ahead to align its orbital pass with the planned landing site.
Mission managers previously reported that Odyssey had unexpectedly entered a “safe mode” on July 11, raising concerns about how long it would take to receive confirmation of a landing. The issue has since been resolved, and NASA said “Odyssey is now operating normally.”
Confirmation of Curiosity’s scheduled landing on Mars is expected to reach Earth at 1:31 a.m. eastern time on Aug. 6. Two other spacecraft – NASA’s Mars Reconnaissance Orbiter and the European Space Agency’s Mars Express – will record radio transmission for later playback. Only Odyssey will be in a position to relay information in near real time, NASA said.
In preparation for the risky landing attempt that marks the first time a sky crane will be used to lower the SUV-sized rover to the surface, mission managers also said they had completed a week-long process of rebooting and configuring the spacecraft’s two redundant main computers. The uplink included spacecraft configuration parameters for entering the Martian atmosphere, descent, landing and surface operations.
Earlier this week, engineers began configuring Curiosity’s navigation system in advance of the landing attempt. That step involved configuration of two inertial measurement units on the spacecraft’s descent stage.
Given the unprecedented size and weight of the Curiosity rover, NASA engineers were forced to come up with a risky sky crane technique to land on Mars. Onboard computers will be required to automatically execute a series of complex commands during the approximately seven minutes it will take for the spacecraft carrying Curiosity to descend through the atmosphere to the Martian surface.
Ask if mission planners had calculated the chances for success, JPL spokesman Guy Webster replied: “No. Important risks are the unknowns, which resist calculating.” Related story:
"Important risks are the unknowns, which resist calculating." - an exceptionally pithy description which honestly describes many engineering challenges. This is a daring effort; I hope it is successful and look ahead to new images and data from the red planet.
We spoke today with the folks at Siemens who helped JPL engineers design, test and build the Mars Science Laboratory and the Curiosity Rover. We'll have more on the Siemens integrated tools suite next week.
It occurred to me while watching the SpaceX cargo ship dock with the space station in May how incredible it is to be able to watch these historic events in real time while sitting at your desk. Thanks for the update on the Mars Curiosity links. Aug. 5/6 should be a real cliff hanger, but we will do it in front of the entire world. Regardless of what happens during the "7 Minutes of Terror," we'll all succeed or fail together.
You can receive updates on the following twitter feed, https://twitter.com/MarsCuriosity . During the landing itself, there will be a live broadcast from mission control on Nasa TV and here http://www.ustream.tv/NASAJPL
ESA's Mars Express supports NASA’s Mars Science Laboratory (MSL) landing.
During descent, the craft will transmit a stream of data. Two nearby NASA spacecraft – Mars Odyssey and Mars Reconnaissance Orbiter – will track and relay the information from Curiosity.
ESA's Mars Express, orbiting the planet since December 2003, will also be on duty for those critical seven minutes, relaying data that could later be crucial if anything goes wrong.
Scientists at ESOC, ESA’s Spacecraft Operations Center in Germany, said they have designed and tested a new pointing mode for Mars Express for its Lander Communications system to point toward MSL.
Will eagerly wait for August 6th/7th to witness this event. Since, this "sky crane" technology is being deployed the very first time there are many risks/challenges compared to the proven technologies and I can imagine the tremendous tension and pressure the entire team might be going through till the landing happens safely. Is there a link published, where the event updates could be followed live?
David Patterson, known for his pioneering research that led to RAID, clusters and more, is part of a team at UC Berkeley that recently made its RISC-V processor architecture an open source hardware offering. We talk with Patterson and one of his colleagues behind the effort about the opportunities they see, what new kinds of designs they hope to enable and what it means for today’s commercial processor giants such as Intel, ARM and Imagination Technologies.