Rover Sample Return System

URI: https://gptkb.org/entity/Rover_Sample_Return_System

GPTKB entity

Statements (59)

Predicate	Object
gptkbp:instance_of	gptkb:space_mission
gptkbp:aims_to	develop new technologies foster international partnerships support astrobiology research enhance understanding of Mars contribute to planetary protection
gptkbp:base	gptkb:Earth
gptkbp:budget	$3 billion
gptkbp:challenges	political considerations safety concerns budget constraints scheduling conflicts technical complexities
gptkbp:collaborates_with	gptkb:European_Space_Agency
gptkbp:designed_by	gptkb:NASA
gptkbp:expected_return	2033
gptkbp:goal	collect samples from Mars
https://www.w3.org/2000/01/rdf-schema#label	Rover Sample Return System
gptkbp:includes	gptkb:Mars_Rover gptkb:Deep_Learning_Super_Sampling return vehicle
gptkbp:involves	gptkb:international_collaboration gptkb:public_outreach scientific community engagement sample storage facilities sample analysis on Earth
gptkbp:is_expected_to	inspire future generations of scientists provide valuable data advance technology for future missions
gptkbp:is_part_of	gptkb:Mars_Sample_Return_campaign
gptkbp:is_supported_by	gptkb:NASA's_Human_Exploration_and_Operations_Mission_Directorate gptkb:NASA's_Science_Mission_Directorate gptkb:NASA's_Jet_Propulsion_Laboratory
gptkbp:launch_date	2028
gptkbp:launch_vehicle	gptkb:Space_Launch_System
gptkbp:mission_duration	approximately 10 years
gptkbp:objective	search for signs of past life study Martian geology prepare for future human exploration analyze Martian climate
gptkbp:orbit_type	gptkb:Mars
gptkbp:part_of	gptkb:space_mission
gptkbp:released	2028
gptkbp:requires	gptkb:public_funding engineering support scientific expertise extensive testing
gptkbp:sampled_in	soil samples rock samples
gptkbp:uses	advanced robotics spectrometers environmental sensors high-resolution cameras sample caching technology
gptkbp:uses_technology	gptkb:Sergeant autonomous navigation robotic arms
gptkbp:bfsParent	gptkb:Exo_Mars_2020
gptkbp:bfsLayer	6