Statements (111)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:helicopter
|
| gptkbp:bfsLayer |
4
|
| gptkbp:bfsParent |
gptkb:Mars_Perseverance_Rover
gptkb:Perseverance_rover gptkb:Mars_2020 gptkb:Perseverance gptkb:Mars_2020_Perseverance_Rover |
| gptkbp:aircraft_operated |
up to 50 meters
autonomous navigation software algorithms up to 10 meters up to 12 meters gyroscope and accelerometer up to 5 meters per second up to 90 seconds demonstrate flight capabilities remote control and autonomous exceeded expectations gyroscopes and accelerometers based on terrain analysis April 2021 to present pioneering technology for future missions up to 3 minutes April to August 2021 |
| gptkbp:airlines |
to Perseverance rover
collaborative team effort evaluated after each flight |
| gptkbp:allows |
limited by battery life
thin atmosphere of Mars |
| gptkbp:application |
aerial scouting
|
| gptkbp:battery_life |
lithium-ion
|
| gptkbp:challenges |
designing for low gravity
|
| gptkbp:collaborates_with |
gptkb:Perseverance_rover
|
| gptkbp:collaborations |
gptkb:Jet_Propulsion_Laboratory
|
| gptkbp:communication |
radio frequency communication
to Earth transmits data to Earth |
| gptkbp:community_engagement |
highly publicized mission
|
| gptkbp:contribution |
mapping Martian terrain
|
| gptkbp:controls |
autonomous
autonomous flight control |
| gptkbp:cultural_impact |
inspired future aerospace projects
|
| gptkbp:design |
gptkb:Jet_Propulsion_Laboratory
gptkb:Ames_Research_Center demonstrate powered flight on another planet |
| gptkbp:designed_by |
gptkb:NASA
|
| gptkbp:diameter |
1.2 meters
|
| gptkbp:educational_programs |
multidisciplinary team
|
| gptkbp:elevation |
up to 10 meters
first powered flight on Mars |
| gptkbp:features |
lightweight materials
|
| gptkbp:first_flight |
gptkb:Jezero_Crater
over 30 ongoing successful Mars surface April 19, 2021 low atmospheric pressure first powered flight on another planet over 30 flights analyzed for future missions pre-programmed collected for analysis documented for analysis 100% in initial flights shared with scientific community collected during each flight contributes to aeronautics research developed for autonomous operation highly stable during flight record for most flights on another planet significant for planetary exploration simulated before actual flights wind and dust developed for Mars environment validate flight in Martian conditions demonstrated feasibility of aerial exploration on Mars |
| gptkbp:future_plans |
additional flights planned
|
| gptkbp:height |
0.49 meters
|
| https://www.w3.org/2000/01/rdf-schema#label |
Ingenuity helicopter
|
| gptkbp:image |
during first flight
|
| gptkbp:impact |
advancing aerial exploration technology
|
| gptkbp:innovation |
first rotorcraft to fly on Mars
|
| gptkbp:landing_site |
gptkb:Jezero_Crater
|
| gptkbp:launch_date |
July 30, 2020
|
| gptkbp:launched |
April 30, 2021
|
| gptkbp:max_takeoff_weight |
gptkb:Mars
|
| gptkbp:mission |
gptkb:Mars_exploration
achieved multiple objectives |
| gptkbp:mission_duration |
several months
up to 120 seconds ongoing since April 2021 up to 3 minutes 30 seconds |
| gptkbp:objective |
demonstrate powered flight on another planet
|
| gptkbp:operational_status |
active
|
| gptkbp:photography |
color camera
|
| gptkbp:power_output |
solar energy
lithium-ion battery |
| gptkbp:production_location |
gptkb:Mars
|
| gptkbp:propulsion |
four
|
| gptkbp:research |
test flight capabilities
|
| gptkbp:research_focus |
aerodynamics in thin atmosphere
|
| gptkbp:safety_features |
designed with safety features
|
| gptkbp:scientific_goals |
explore Martian terrain
|
| gptkbp:speed |
up to 6 meters per second
|
| gptkbp:storage |
stores data onboard
|
| gptkbp:sustainability |
two
0.5 square meters |
| gptkbp:weight |
1.8 kilograms
1.5 kilograms for flight 1.5 kilograms for payload |