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Relative navigation in asteroids missions
B. Razgus, E. Mooij,
D. Choukroun
Department of Mechanical Engineering
Research output
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Contribution to conference
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peer-review
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Dive into the research topics of 'Relative navigation in asteroids missions'. Together they form a unique fingerprint.
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Keyphrases
Relative Navigation
100%
Asteroids
100%
Dual Quaternion
100%
Asteroid Mission
100%
Polyhedron
66%
Relative Pose
66%
Navigation Camera
66%
Quaternion Filter
66%
Line-of-sight
33%
Steady State
33%
Monte Carlo Simulation
33%
Small Bodies
33%
Conventional Filters
33%
Angular Rate
33%
Attitude Quaternion
33%
Cartesian Coordinates
33%
Rate Gyroscope
33%
Navigation Filter
33%
Position Sense
33%
Gyroscope Drift
33%
Star Tracker
33%
Attitude Sensing
33%
Camera Field of View
33%
Gravity Gradient Torque
33%
Torque Model
33%
Laser Ranger
33%
Relative Pose Estimation
33%
Laser Ranging
33%
Gravity Field Modeling
33%
Hardware Model
33%
Itokawa
33%
Standard Filter
33%
Earth and Planetary Sciences
Spacecraft
100%
Asteroid Mission
100%
Gyroscope
100%
Line of Sight
50%
Field of View
50%
Cartesian Coordinate
50%
Star Tracker
50%
Laser Ranging
50%
Gravitational Field
50%
Position Sensing
50%
Engineering
Transients
100%
Observability
100%
Pose Estimation
100%
Gravity Gradient Torque
100%
Cartesian Coordinate
100%
Spacecraft Relative
100%