Spacecraft Attitude Control Experiment
GPTKB entity
Statements (55)
| Predicate | Object |
|---|---|
| gptkbp:instance_of |
gptkb:physicist
|
| gptkbp:application |
gptkb:spacecraft
satellite operations interplanetary missions |
| gptkbp:associated_with |
gptkb:NASA's_Artemis_program
gptkb:spacecraft commercial spaceflight |
| gptkbp:challenges |
data analysis
environmental factors system integration |
| gptkbp:collaborations |
gptkb:spacecraft
private aerospace companies |
| gptkbp:collection |
attitude data
control system performance |
| gptkbp:community_involvement |
gptkb:Educational_Institution
workshops public lectures |
| gptkbp:conducted |
gptkb:NASA
|
| gptkbp:duration |
6 months
|
| gptkbp:field_of_study |
aerospace engineering
|
| gptkbp:future_plans |
further testing
technology refinement application to new missions |
| https://www.w3.org/2000/01/rdf-schema#label |
Spacecraft Attitude Control Experiment
|
| gptkbp:impact |
improvement of mission success rates
advancement of aerospace technology influence on international space policy |
| gptkbp:involves |
gptkb:software_framework
simulation studies hardware testing |
| gptkbp:is_evaluated_by |
performance metrics
comparative analysis real-time monitoring |
| gptkbp:launched |
2021-05-15
|
| gptkbp:location |
Low Earth Orbit
|
| gptkbp:outcome |
successful demonstration
|
| gptkbp:publishes |
gptkb:conference
research papers technical reports |
| gptkbp:purpose |
to test attitude control systems
|
| gptkbp:receives_funding_from |
government grants
|
| gptkbp:related_to |
gptkb:robot
control theory spacecraft dynamics |
| gptkbp:result |
enhanced stability
reduced fuel consumption improved control algorithms |
| gptkbp:succeeded_by |
operational efficiency
data accuracy system reliability |
| gptkbp:technology |
gyroscopes
magnetorquers reaction wheels |
| gptkbp:bfsParent |
gptkb:STS-64
|
| gptkbp:bfsLayer |
4
|