NASA has released a time-lapse video showcasing Opportunity’s 11 year journey on Mars from January 2004 to April 2015.
The video shows off the rover starting off from its landing site through to Endurance Crater, Victoria Crater and Endeavour Crater. Opportunity landed on Mars in 2004 and has been studying the rim of Endeavour since 2011.
Now, the rover will be working its way through the western end of “Marathon Valley,” a notch in the raised rim of Endeavour Crater, which is about 14 miles (22 kilometers) in diameter.
According to mission control of NASA’s Mars Exploration Rover Opportunity, the rover will be active through the long-lived rover’s seventh Martian winter, examining outcrops that contain clay minerals.
The reason engineers and scientists operating Opportunity have chosen Marathon Valley is that the they intend for the rover to spend several months in the valley, starting in August, and take advantage of a sun-facing slope loaded with potential science targets.
Marathon Valley stretches about three football fields long, aligned generally east-west. Observations of the valley using the Compact Reconnaissance Imaging Spectrometer for Mars aboard NASA’s Mars Reconnaissance Orbiter have detected exposures of clay minerals holding evidence about ancient wet environmental conditions. Researchers plan to use Opportunity to investigate relationships among these clay-bearing deposits.
The team plans to drive Opportunity this month to sites on the valley’s northern side, where the slope faces south. Right now, it is early autumn in the southern hemisphere of Mars. The shortest day of the hemisphere’s winter won’t come until January. As the sun’s daily track across the northern sky gets shorter, the north-facing slope on the southern side of the valley will offer the advantage of tilting the rover’s solar panels toward the sun, to boost the amount of electrical energy production each day.
Opportunity resumed driving on June 27 after about three weeks of reduced activity around Mars solar conjunction, when the sun’s position between Earth and Mars disrupts communication. The rover is operating in a mode that does not store any science data overnight. It transmits the data the same day they’re collected.
First, though, the mission’s initial activities for a few days after emerging from the solar conjunction period are to examine rocks in and near a band of reddish material at the northern edge of an elongated crater called “Spirit of St. Louis.” During the driving moratorium, the rover used the alpha particle X-ray spectrometer on the end of its robotic arm to assess the chemical composition of a target in this red zone.
The rover is operating in a mode that avoids use of the type of onboard memory — non-volatile flash memory — that can retain data even when power is turned off overnight. It is using random-access memory, which retains data while power is on. The rover operated productively in this mode for several months in 2014. A reformatting of the flash memory earlier this year temporarily slowed the frequency of flash-induced computer resets, but the reset occurrences increased again later in the spring.
“Opportunity can continue to accomplish science goals in this mode,” said Opportunity Project Manager John Callas, of NASA’s Jet Propulsion Laboratory, Pasadena, California. “Each day we transmit data that we collect that day.”
“Flash memory is a convenience but not a necessity for the rover,” Callas said. “It’s like a refrigerator that way. Without it, you couldn’t save any leftovers. Any food you prepare that day you would have to either eat or throw out. Without using flash memory, Opportunity needs to send home the high-priority data the same day it collects it, and lose any lower-priority data that can’t fit into the transmission.”