Statements (102)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:space_mission
gptkb:missions |
| gptkbp:collaboration |
potential for global partnerships
with other space agencies |
| gptkbp:community_engagement |
educational outreach programs
aims to inspire future generations |
| gptkbp:cost_estimate |
approximately $20 billion
$20 billion |
| gptkbp:crew_capacity |
4 to 6 astronauts
|
| gptkbp:development |
new propulsion systems
requires advancements in propulsion and life support |
| gptkbp:duration |
approximately 13 minutes
|
| gptkbp:first_flight |
planned for the 2030s
planned for 2030s |
| gptkbp:fuel_economy |
gptkb:in-situ_resource_utilization
|
| gptkbp:goal |
human exploration of Mars
|
| gptkbp:habitat |
inflatable modules
|
| gptkbp:homeworld |
via direct ascent from Mars
|
| https://www.w3.org/2000/01/rdf-schema#label |
Mars Direct
|
| gptkbp:in-situ_resource_utilization |
utilizes Martian resources
|
| gptkbp:ingredients |
growing crops on Mars
|
| gptkbp:inspiration |
gptkb:Mars_Society
|
| gptkbp:landing_site |
near the equator of Mars
|
| gptkbp:launch_date |
every 26 months
|
| gptkbp:launch_vehicle |
gptkb:Space_Launch_System
gptkb:Space_Shuttle |
| gptkbp:launch_window |
every 26 months
|
| gptkbp:life_detection |
search for microbial life
|
| gptkbp:life_support_system |
includes oxygen and water recycling
|
| gptkbp:mars_ascent_vehicle |
launch from Mars surface
used for return to Earth |
| gptkbp:mars_atmosphere |
study of Martian weather patterns
thin and carbon dioxide-rich |
| gptkbp:mars_colonization |
long-term vision
concept of establishing a permanent settlement |
| gptkbp:mars_direct_architecture |
simplified mission design
|
| gptkbp:mars_direct_challenges |
technical and logistical hurdles
|
| gptkbp:mars_direct_community |
support from space advocacy groups
|
| gptkbp:mars_direct_concept |
influenced by earlier missions
|
| gptkbp:mars_direct_feasibility |
assessed by experts
|
| gptkbp:mars_direct_funding |
government and private investment
|
| gptkbp:mars_direct_impact |
on space policy and exploration.
|
| gptkbp:mars_direct_legacy |
inspiration for future missions
|
| gptkbp:mars_direct_research |
ongoing studies in astrobiology
|
| gptkbp:mars_direct_success |
measured by mission objectives
|
| gptkbp:mars_direct_timeline |
phased approach to missions
|
| gptkbp:mars_dust_storms |
monitoring of seasonal weather events
|
| gptkbp:mars_exploration |
human and robotic missions
|
| gptkbp:mars_exploration_history |
builds on previous missions like Viking and Curiosity
|
| gptkbp:mars_geology |
investigation of Martian rocks and soil
|
| gptkbp:mars_landing_technique |
uses aerobraking and parachutes
|
| gptkbp:mars_mission_architecture |
framework for mission planning
|
| gptkbp:mars_mission_challenges |
addresses technical and environmental obstacles
|
| gptkbp:mars_mission_communication |
establishes contact with Earth
|
| gptkbp:mars_mission_funding |
requires government and private investment
|
| gptkbp:mars_mission_legacy |
aims to inspire future space exploration
|
| gptkbp:mars_mission_logistics |
planning for supplies and equipment
|
| gptkbp:mars_mission_objectives |
includes scientific research and technology demonstration
|
| gptkbp:mars_mission_outreach |
educates the public about space exploration
|
| gptkbp:mars_mission_partnerships |
collaborates with space agencies and universities
|
| gptkbp:mars_mission_risks |
identifies potential hazards to crew
|
| gptkbp:mars_mission_success_criteria |
defines metrics for mission evaluation
|
| gptkbp:mars_mission_timeline |
includes phases from planning to execution
|
| gptkbp:mars_mission_training |
prepares astronauts for Martian environment
|
| gptkbp:mars_mission_vision |
envisions a human presence on Mars
|
| gptkbp:mars_moons |
potential for studying Phobos and Deimos
|
| gptkbp:mars_polar_ice_caps |
exploration of ice deposits
|
| gptkbp:mars_rover |
used for exploration
potential use of rovers for exploration |
| gptkbp:mars_science_objectives |
includes searching for signs of life
|
| gptkbp:mars_surface_conditions |
extreme temperatures
analysis of temperature and pressure |
| gptkbp:mars_surface_habitat |
provides living quarters for astronauts
|
| gptkbp:mars_surface_operations |
includes exploration and experiments
|
| gptkbp:mars_technology_readiness |
assesses readiness of technologies for mission
|
| gptkbp:mars_terraforming |
discussion of long-term environmental modification
|
| gptkbp:mars_weather |
dust storms and temperature fluctuations
|
| gptkbp:mission |
includes launch, transit, surface operations, and return
|
| gptkbp:mission_duration |
approximately 18 months
|
| gptkbp:objective |
geological studies
includes geology and astrobiology studies |
| gptkbp:orbital_altitude |
gptkb:Hohmann_transfer_orbit
|
| gptkbp:partnerships |
NASA and private sector
|
| gptkbp:power_source |
solar panels
|
| gptkbp:proposed_by |
gptkb:Robert_Zubrin
|
| gptkbp:public_interest |
increased interest in Mars exploration
|
| gptkbp:radiation_protection |
Mars habitat design
requires shielding from cosmic rays |
| gptkbp:related_vehicle |
gptkb:Earth_Return_Vehicle
designed to launch from Mars surface |
| gptkbp:safety_measures |
emergency protocols
includes contingency plans for emergencies |
| gptkbp:scientific_instruments |
used for experiments
equipped with advanced research tools |
| gptkbp:support |
advocacy by space enthusiasts
|
| gptkbp:surface |
90 days on Mars
|
| gptkbp:sustainability |
closed-loop life support system
focuses on sustainable human presence on Mars |
| gptkbp:water_extraction |
from Martian soil
|
| gptkbp:bfsParent |
gptkb:Robert_Zubrin
gptkb:Starship_spacecraft |
| gptkbp:bfsLayer |
5
|