Our idea is to design a lunar robotic mission,which optimizes samples and data collection and saves working time. Our idea is to design a lunar robotic mission,which optimizes samples and data collection and saves working time. The check-up cubes land at a distance from the rover landing site, on two different circles, then they examine the lunar subsurface and send the results to the rover’s AI. This mission design will save several weeks of work: the rover will know where it is worth going.Once MAMBO gets to the “analysis” site, it collects soil androck samples,which are analysied by the AI through mass spectometer andscanning electron microscope. AI separates valuable samples from worthlessones, and communicates with mission central on earth. If they confirm theirvalue, the samples are storaged into a drum shaped sealed capsule. Energy willbe provided with radioisotope thermoeletric generator. At the end of the mission, Mambo will deliver all the valuable materials into the lunar module, which will fly away and dock to the orbiter. It is possible to adapt the lunar mission to Mars exploration.

You can find resources at links:

https://www.nasa.gov/feature/ames/ice-confirmed-at-the-moon-s-poles

https://www.nasa.gov/centers/johnson/partnerships/erc/mras/scanning-electron-microscopy-sem

https://attic.gsfc.nasa.gov/huygensgcms/Mass_Spec_Intro.htm

https://solarsystem.nasa.gov/missions/cassini/radioisotope-thermoelectric-generator/