Mars 2020 rover mission camera system 'Mastcam-Z' testing begins at ASU by Karin Valentine for ASU News Tempe AZ (SPX) Dec 06, 2018
Arizona State University research technician and Mars 2020 Mastcam-Z calibration engineer Andy Winhold waited patiently on the loading dock of ASU's Interdisciplinary Science and Technology Building IV in anticipation of the arrival of a very special delivery. On board the delivery truck was precious cargo from Malin Space Science Systems, a test model of "Mastcam-Z," the mast-mounted camera system for NASA's Mars 2020 rover mission. Mastcam-Z is being designed, built and tested under the direction of principal investigator Jim Bell, of ASU's School of Earth and Space Exploration. The dual camera system can zoom in (hence the 'Z' in "'Mastcam-Z'), focus and take 3D pictures and panoramas at a variety of scales. This will allow the Mars 2020 rover to provide a detailed examination of both close and distant objects. The test model that arrived on the Tempe campus in November, otherwise known as an engineering qualification model or EQM, is an important step in designing and building instruments for space. These models not only serve as a way to run the instruments through the rigors of launch and functionality in space, they also serve as a way for the instrument team to evaluate the design and testing plans before the final cameras are fully assembled.
Testing the Mastcam-Z engineering model "Parts may take longer to build than expected, a certain assembly step may be more difficult than initially thought or resources from third parties could become scarce on short notice," Winhold said. "These are all things we can learn about and prepare for in advance using the engineering model." The team first verifies that the test instrument operates correctly in terms of parts, power consumption and software. They also use the model to ensure the instrument meets mission requirements in terms of functionality, size and weight. "For Mastcam-Z, one of the primary interests with the engineering model was evaluating the instrument's ability to change focal length - or zoom," Winhold said. Specifically, the team tested the engineering model in the thermal vacuum chamber, located in ASU's Interdisciplinary Science and Technology Building IV, to confirm that their support equipment was designed appropriately and allowed the camera to be placed securely in the chamber and view out the chamber's window clearly. They also timed the tests so they knew how long testing the actual cameras will take, and they tested the IT network's ability to share data quickly between people inside the cleanroom and other support team members outside of the room and around the world. Winhold describes his role on the mission as similar to someone playing the game "Operation," where the patient is the Mastcam-Z cameras and the tweezers are the support pieces. "But in my case," said Winhold, "I'm only shown pictures of the board game, and based on those pictures I need to design and create the best tweezers for removing ailments without hurting the patient." And according to the team, the testing has been a success so far. "We had a few hiccups we worked around, like cables not being long enough, not understanding best communication procedures, that sort of thing; but nothing truly unexpected," Winhold said. "That's exactly how we like things. In testing equipment that will be going to space, a boring day that goes according to procedure is a good one." Next steps for the Mastcam-Z team In December, the actual Mastcam-Z flight cameras will arrive on the ASU Tempe campus for testing. They will then be delivered to NASA's Jet Propulsion Laboratory and installed on the Mars 2020 rover, which will launch in summer 2020, landing on Mars in February 2021. The mission is expected to last at least one Mars year (687 Earth days). "The tests we ran on the engineering unit at ASU are almost identical to the tests we'll be running on the actual cameras when they arrive," Winhold said. Once the instrument is finalized and installed in the Mars 2020 rover, the engineering model continues to have a purpose. "Largely it is considered a 'flight spare' and will be a back-up unit should something happen to the flight cameras before launch," Winhold explained. "Once the rover launches in the summer of 2020 we won't be able to do any hands-on interaction with the flight cameras, though, so we'll have the engineering model as a reference for possible problem solving and as a reference for subsequent rover missions."
About Mastcam-Z Mastcam-Z's purpose is to take high resolution panoramic color and 3D images of the Martian surface and features in the atmosphere with a zoom lens to magnify distant targets. It will be mounted on the Mars 2020 rover mast at the eye level of a 6-foot-5-inch person. The two cameras are separated by 9.5 inches to provide stereo vision. These cameras, with their all-seeing sharp vision, will provide images for science team members to pick out the best rocks, to hunt for evidence of past habitability recorded in the geology and texture of the landscape, and to look for signs of past water on Mars. Mastcam-Z's principal investigator is Professor Jim Bell of the School of Earth and Space Exploration. The deputy principal investigator is Dr. Justin Maki of NASA's Jet Propulsion Laboratory, the Planetary Society serves as the instrument's education and public outreach partner, and the prime subcontractor for instrument development is Malin Space Science Systems, Inc.
NASA's Mars 2020 rover mission The mission also seeks to gather knowledge and to demonstrate technologies that address the challenges of future human expeditions to Mars. These include testing a method for producing oxygen from the Martian atmosphere, identifying other resources (such as subsurface water), improving landing techniques, and characterizing weather, dust, and other potential environmental conditions that could affect future astronauts living and working on Mars.
SpaceBok robotic hopper being tested at ESA's Mars Yard Washington (UPI) Nov 28, 2018 SpaceBok, a robotic hopper, is currently undergoing tested in the European Space Agency's Mars Yard. On Wednesday, ESA released an image of the four-legged robot navigating cragged, red-tinged rocks. SpaceBok was designed by a team of students from a pair of Swiss research universities, ETH Zurich and ZHAW Zurich. Students and researchers designed the robot for the purpose of navigating uneven, low-gravity environments like those found on the surface of the moon and Mars. The Mars Yard i ... read more
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