The upside of being lazy is that you’re not doing anything unpleasant. The downside is that the unpleasantness stacks up at the far end. No, wait, that’s not right. But, you know, sometimes the art of playing catch-up … er … right. Enough about me.
There is plenty going on around the solar system.
First up, Yellowknife Bay, Mars, where our friendly neighborhood robotic space laboratory is still recovering from a memory glitch that forced Curiosity to switch over to its redundant B-side computer:
NASA’s Mars rover Curiosity continues to move forward with assessment and recovery from a memory glitch that affected the rover’s A-side computer. Curiosity has two computers that are redundant of one another. The rover is currently operating using the B-side computer, which is operating as expected.
Over the weekend, Curiosity’s mission operations team continued testing and assessing the A-side computer’s memory.
“These tests have provided us with a great deal of information about the rover’s A-side memory,” said Jim Erickson, deputy project manager for the Mars Science Laboratory/Curiosity mission at NASA’s Jet Propulsion Laboratory, Pasadena, Calif. “We have been able to store new data in many of the memory locations previously affected and believe more runs will demonstrate more memory is available.”
Two software patches, targeting onboard memory allocation and vehicle safing procedures, are likely to be uplinked later this week. After the software patches are installed, the mission team will reassess when to resume full mission operations.
Cassini flew by Rhea at an altitude of 620 miles (997 kilometers) on March 9, 2013. This flyby was designed primarily for the radio science sub-system to measure Rhea’s gravity field. During closest approach and while the radio science sub-system was measuring the icy satellite’s gravity field, the imaging team rode along and captured 12 images of Rhea’s rough and icy surface. Outbound from Rhea, Cassini’s cameras captured a set of global images from a distance of about 167,000 miles (269,000 kilometers).
Data from Cassini’s cosmic dust analyzer were also collected to try to detect any dusty debris flying off the surface from tiny meteoroid bombardments. These data will help scientists understand the rate at which “foreign” objects are raining into the Saturn system.
Cassini will visit Titan (T-90) at a range of 870 miles (1,400 km) on April 5, 2013.
In more earthly realms, Matt McGrath continues his coverage for BBC of the CITES meeting in Bangkok, Thailand:
The body, which regulates trade in flora and fauna, voted by a two-thirds majority to upgrade the sharks’ status ….
…. The decisions can still be overturned by a vote on the final day of this meeting later this week.
The oceanic whitetip, three varieties of hammerheads and the porbeagle are all said to be seriously threatened by overfishing.
And maybe a bonus Cassini note, because I so adore the photo:
The ghostly spokes in Saturn’s B ring continue to put on a show for the Cassini spacecraft cameras in this recent image. The spokes, believed to be a seasonal phenomenon, are expected to disappear as Saturn nears its northern hemisphere summer. Scientists continue to monitor the spokes to better understand their origin and evolution.
The small moon Atlas also appears here barely visible in between the A ring and the F ring, which is the thin ring located furthest from Saturn, as the fainter dot close to the A ring. Atlas is closer to the bottom of the image. A bright star also appears in the gap between the two rings, and there are six other stars visible (one through the C ring, near the planet).