Statements (342)
Predicate | Object |
---|---|
gptkbp:instance_of |
gptkb:robot
|
gptkbp:bfsLayer |
3
|
gptkbp:bfsParent |
gptkb:anime
gptkb:Mixed_Martial_Artist gptkb:Takeda_Pharmaceutical_Company gptkb:John_Steinbeck gptkb:Pokémon gptkb:Kadir_Nelson gptkb:Saint gptkb:Elric_Brothers gptkb:Kamen_Rider gptkb:NASA gptkb:robot gptkb:superhero gptkb:Annie |
gptkbp:analyzes |
gptkb:Mars'_polar_regions
Martian surface composition |
gptkbp:cache_size |
gptkb:battle
|
gptkbp:collaborates_with |
gptkb:Jet_Propulsion_Laboratory
gptkb:spacecraft gptkb:Ingenuity_helicopter |
gptkbp:collects |
gptkb:Martian_soil
gptkb:species gptkb:battle soil samples rock samples Rock and soil samples rock and soil samples atmospheric samples data for future missions samples for return to Earth Martian soil and rock |
gptkbp:communication |
gptkb:physicist
gptkb:High-gain_antenna high-gain antenna Data back to Earth UHF radio data back to Earth Direct to Earth UHF antenna sending data to Earth |
gptkbp:controls |
gptkb:Jet_Propulsion_Laboratory
Remote operators |
gptkbp:date |
February 18, 2021
|
gptkbp:designed_by |
gptkb:Jet_Propulsion_Laboratory
|
gptkbp:discovered_by |
Rocks with potential biosignatures
|
gptkbp:duration |
ongoing since 2021
|
gptkbp:emergency_services |
Rock drill
Core sample drill |
gptkbp:exhibited_at |
gptkb:MOXIE
gptkb:Ingenuity |
gptkbp:explores |
gptkb:Jezero_Crater
potential biosignatures ancient river delta Martian terrain potential past habitability |
gptkbp:first_ascent |
Martian hill
|
gptkbp:follows |
gptkb:Curiosity_rover
|
gptkbp:has |
gptkb:Company
gptkb:Photographer gptkb:robot Cameras microphones spectrometers Weather station Sample caching system Rover arm High-resolution imaging system a robotic arm a helicopter named Ingenuity two microphones |
gptkbp:has_programs |
Data analysis software
Communication software Autonomous navigation software Environmental monitoring software Sample caching software |
gptkbp:height |
2.2 meters
|
https://www.w3.org/2000/01/rdf-schema#label |
Perseverance
|
gptkbp:inscription |
Rover arm
Sample handling system |
gptkbp:instrument |
gptkb:PIXL
gptkb:musician gptkb:Rover_Environmental_Monitoring_Station gptkb:Rover_Environmental_Monitoring_Station_(REMS) gptkb:hospital gptkb:physicist gptkb:MOXIE gptkb:Mastcam-Z gptkb:Super_Cam gptkb:Company gptkb:Hazcam gptkb:video_game gptkb:robot gptkb:Navcam gptkb:satellite gptkb:NAVCAM ground-penetrating radar SHERLOC X-ray fluorescence spectrometer sample tubes MEDA Sample Caching System thermal emission imaging system atmospheric sensor chemical analyzer dust sensor optical microscope sample handling system cameras for color imaging environmental monitoring instrument sample analysis instrument |
gptkbp:intelligence |
Machine learning algorithms
|
gptkbp:is |
data back to Earth
images of Mars |
gptkbp:is_a |
Robotic spacecraft
|
gptkbp:is_analyzed_in |
gptkb:geological_formation
gptkb:Martian_atmosphere gptkb:Martian_rocks |
gptkbp:is_approximately |
1.1 meters tall
2.7 meters wide 3 meters long |
gptkbp:is_capable_of |
detecting organic compounds
sample caching operating in extreme temperatures conducting long-distance travel on Mars. drilling into rocks performing in-situ analysis |
gptkbp:is_designed_for |
at least 687 Earth days
|
gptkbp:is_designed_to |
Analyze Martian geology
analyze soil composition collect rock and soil samples study the planet's geology Test new technologies test new technologies for future missions test oxygen production demonstrate technology for future human missions survive dust storms on Mars |
gptkbp:is_equipped_with |
gptkb:PIXL
gptkb:musician gptkb:Rover_Environmental_Monitoring_Station gptkb:Rover_Environmental_Monitoring_Station_(REMS) gptkb:MOXIE_instrument gptkb:MOXIE gptkb:Mastcam-Z gptkb:Super_Cam gptkb:Percy gptkb:Photographer Spectrometers spectrometers drilling tools advanced navigation systems SHERLOC Sample Caching System weather sensors Sample analysis tools Navigation cameras a dust removal tool |
gptkbp:is_expected_to |
Conduct experiments
Study Martian climate support future human missions Search for biosignatures enhance understanding of Mars Return samples to Earth Conduct long-term monitoring of Martian weather contribute to understanding Mars' climate help prepare for human exploration provide insights into Mars' past environment return samples to Earth in future missions provide insights into Mars' past Analyze the Martian atmosphere Conduct in-situ resource utilization experiments Contribute to planetary science Enhance understanding of Mars' geology Explore the potential for past life on Mars Investigate potential hazards for future missions Investigate the history of water on Mars Provide data for future Mars missions Provide insights into Mars' past Support astrobiology research Test oxygen production technology Assess natural resources for future human exploration |
gptkbp:is_monitored_by |
gptkb:battle
weather conditions |
gptkbp:is_part_of |
gptkb:NASA's_Artemis_program
gptkb:NASA's_Mars_exploration_program gptkb:spacecraft gptkb:international_collaboration gptkb:NASA's_rover_program gptkb:Mars_2020_mission international collaboration efforts a larger exploration strategy |
gptkbp:is_studied_in |
Martian geology
climate history of Mars Mars' surface features |
gptkbp:is_supported_by |
International collaboration
|
gptkbp:is_tested_for |
new technologies
sample caching system ingenuity helicopter |
gptkbp:landing_gear |
gptkb:sky_crane
|
gptkbp:landing_site |
gptkb:Jezero_Crater
2021-02-18 February 18, 2021 |
gptkbp:landscape |
rocky terrain
|
gptkbp:launch_date |
2020-07-30
July 30, 2020 |
gptkbp:launched |
gptkb:2020
gptkb:Cape_Canaveral_Space_Force_Station gptkb:NASA July 30, 2020 |
gptkbp:length |
3 meters
|
gptkbp:manufacturer |
gptkb:NASA
|
gptkbp:mass |
1025 kg
|
gptkbp:max_takeoff_weight |
gptkb:Mars
gptkb:Jezero_Crater February 18, 2021 |
gptkbp:mission |
gptkb:Mars_2020
gptkb:NASA's_Space_Operations_Center gptkb:NASA's_Jet_Propulsion_Laboratory gptkb:NASA's_Mars_Exploration_Program Astrobiology astrobiology Search for signs of ancient life search for signs of ancient life collect rock and soil samples test new technology for future missions |
gptkbp:mission_duration |
ongoing
One Martian year At least one Martian year at least one Martian year Ongoing since 2021 |
gptkbp:named_after |
gptkb:Perseverance
|
gptkbp:navigation_system |
gptkb:battle
Autonomous navigation autonomous navigation |
gptkbp:notable_conductors |
experiments
biological experiments radiation measurements |
gptkbp:number_of_holes |
core samples
|
gptkbp:objective |
Search for signs of ancient life
search for signs of ancient life collect rock and soil samples |
gptkbp:operated_by |
gptkb:Jet_Propulsion_Laboratory
gptkb:radio_station gptkb:NASA nuclear power nuclear battery |
gptkbp:operates |
gptkb:Jet_Propulsion_Laboratory
gptkb:Jezero_Crater |
gptkbp:operational_area |
gptkb:Jezero_Crater
2021-present at least one Martian year |
gptkbp:operational_range |
up to 200 meters per day
|
gptkbp:operational_status |
Active
operational February 2021 |
gptkbp:part_of |
gptkb:Mars_2020_mission
|
gptkbp:performed_by |
gptkb:physicist
|
gptkbp:photography |
gptkb:Rover_Navigation_Camera
gptkb:Mastcam-Z gptkb:Super_Cam gptkb:Hazard_Avoidance_Camera gptkb:Navcam Navigation cameras Hazard avoidance camera Hazard avoidance cameras Mast camera Rover environmental monitoring camera Rover's main camera Rover Science Camera |
gptkbp:power_output |
gptkb:radio_station
gptkb:Multi-Mission_Radioisotope_Thermoelectric_Generator nuclear power |
gptkbp:recorded_by |
future missions
|
gptkbp:resolution |
taking images of the Martian surface
|
gptkbp:scientific_goals |
Prepare for human exploration
Collect rock and soil samples Study Martian geology prepare for human exploration study Martian geology Prepare for future human exploration Search for biosignatures Test new technologies for future missions Test oxygen production from Martian atmosphere Analyze the Martian surface and atmosphere Analyze the mineralogy of Martian rocks Assess the habitability of ancient environments Characterize the climate and geology of Mars Characterize the climate of Mars Characterize the geology of Mars Collect and cache samples for future return Conduct experiments with the Ingenuity helicopter Explore the delta region of Jezero Crater Investigate the Martian atmosphere Investigate the potential for past life Investigate the presence of water ice Study the effects of radiation on Mars Study the impact of dust on solar panels Test oxygen production from Martian C O2 analyze climate and weather |
gptkbp:seating_capacity |
gptkb:musician
gptkb:aircraft gptkb:Company gptkb:Photographer computers microphones software systems spectrometers power management systems power systems data storage systems robotic arms environmental sensors mobility systems sample tubes scientific analysis tools thermal control systems radiation sensors weather sensors sample handling systems sample analysis systems |
gptkbp:sensor |
Pressure sensors
Temperature sensors Radiation sensors Dust sensors Wind sensors |
gptkbp:services |
produce oxygen from Martian C O2
|
gptkbp:sound |
Super Cam microphone
|
gptkbp:status |
active
|
gptkbp:successor |
gptkb:Curiosity
gptkb:Curiosity_rover |
gptkbp:team |
gptkb:NASA's_Perseverance_team
|
gptkbp:technology |
Autonomous navigation
|
gptkbp:tire_supplier |
gptkb:6
|
gptkbp:top_speed |
0.1 km/h
|
gptkbp:transportation |
six wheels
|
gptkbp:uses |
gptkb:Artificial_Intelligence
autonomous navigation AI for navigation cameras for high-resolution imaging machine learning for data analysis |
gptkbp:weight |
1025 kg
|
gptkbp:width |
2.7 meters
|