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Detect, fetch and collect. A seemingly easy task is being tested to find the best strategy to collect samples on the martian surface, some 290 000 million km away from home.<\/p>\n
Testing technologies for Mars exploration is part of the daily job of Laura Bielenberg, an ESA graduate trainee for the Mars Sample Return<\/a> campaign.<\/p>\n The test takes place at the rock-strewn recreation of the Red Planet at ESA\u2019s ESTEC<\/a>\u00a0technical centre in Noordwijk, the Netherlands. The nickname of this test site is the \u2018Mars Yard\u2019 and is part of the\u00a0Planetary Robotics Laboratory<\/a>.<\/p>\n The tube is a replica of the sample caches that NASA\u2019s\u00a0Perseverance rover<\/a> is leaving on Mars hermetically sealed with precious martian samples inside. They are called RSTA, an acronym of Returnable Sample Tube Assembly, and to most people on Earth they look like lightsabers.<\/p>\n Laura is investigating sample tube collection strategies, from autonomous detection to pose estimation of sample tubes on Mars, with a testbed called the RABBIT (RAS Bread Boarding In-house Testbed).<\/p>\n The Sample Transfer Arm<\/a> will need to load the tubes from the martian surface for delivery towards Earth. ESA\u2019s robotic arm will collect them from the Perseverance rover, and possibly others dropped by sample recovery helicopters<\/a> as a backup.<\/p>\n Besides cameras and sensors, the team relies on neural networks to detect the tubes and estimate their pose. Inspired by the way the human brain works, neural networks mimic the way biological neurons signal to one another.<\/p>\n More news about the Mars Sample Return campaign on ESA\u2019s To Mars and Back blog<\/a>.<\/p>\n