|
gptkbp:instance_of
|
gptkb:robot
|
|
gptkbp:bfsLayer
|
5
|
|
gptkbp:bfsParent
|
gptkb:STS-39_patch
|
|
gptkbp:battery_life
|
72 hours
|
|
gptkbp:can_be
|
sample analysis
|
|
gptkbp:collaborated_with
|
international space agencies
|
|
gptkbp:collaborates_with
|
other rovers
|
|
gptkbp:communication
|
1000 km
radio waves
to Earth
|
|
gptkbp:constructed_in
|
lightweight materials
|
|
gptkbp:controls
|
gptkb:spacecraft
|
|
gptkbp:designed_by
|
gptkb:NASA
|
|
gptkbp:developed_by
|
gptkb:Jet_Propulsion_Laboratory
2020s
cutting-edge technology
collaborative research
Mars 2030 mission
|
|
gptkbp:features
|
modular design
|
|
gptkbp:has_method
|
data collection
|
|
gptkbp:has_mission
|
search for life
|
|
gptkbp:height
|
1.5 m
|
|
https://www.w3.org/2000/01/rdf-schema#label
|
SPLAT-2
|
|
gptkbp:is_capable_of
|
autonomous navigation
soil analysis
3 D mapping
|
|
gptkbp:is_designed_for
|
gptkb:long-duration_missions
gptkb:Research_Institute
|
|
gptkbp:is_designed_to
|
operate in extreme temperatures
|
|
gptkbp:is_equipped_with
|
gptkb:Photographer
spectrometers
advanced navigation systems
|
|
gptkbp:is_expected_to
|
contribute to astrobiology research
valuable data
support human missions
enhance understanding of Mars
assist in future colonization efforts
discover new minerals
provide insights into climate history
reveal geological history
|
|
gptkbp:is_part_of
|
gptkb:NASA's_Artemis_program
gptkb:spacecraft
gptkb:battle
Mars exploration strategy
|
|
gptkbp:is_supported_by
|
government funding
|
|
gptkbp:is_tested_for
|
environmental conditions
simulated environments
failure scenarios
|
|
gptkbp:is_used_for
|
planetary exploration
|
|
gptkbp:launch_date
|
2025
|
|
gptkbp:navigation_system
|
rough terrain
|
|
gptkbp:operated_by
|
gptkb:physicist
solar energy
|
|
gptkbp:operates
|
gptkb:Mars
|
|
gptkbp:research_focus
|
geology
|
|
gptkbp:seating_capacity
|
50 kg
|
|
gptkbp:setting
|
avoid obstacles
|
|
gptkbp:technology
|
AI algorithms
|
|
gptkbp:weight
|
200 kg
|
|
gptkbp:width
|
1 m
|