Details
Title
Blunt, Paul David
Sciper ID
257007
Affiliated labs
ESPLAB
Publications
An adaptive GNSS-based reduced dynamic approach for real time autonomous navigation from the Earth to the Moon
Availability and ranging error analysis for a GPS L1/L5 receiver navigating to the Moon
GNSS/INS/Star Tracker Integration for Real-Time On-Board Autonomous Orbit and Attitude Determination in LEO, MEO, GEO and Beyond
GPS Based Navigation Performance Analysis within and beyond the Space Service Volume for Different Transmitters’ Antenna Patterns
GPS based navigation performance analysis within and beyond the Space Service Volume for different transmitters’ antenna patterns
High Accuracy GNSS Based Navigation in GEO
High accuracy GNSS based navigation in GEO
Orbital Filter Aiding of a High Sensitivity GPS Receiver for Lunar Missions
Orbital Filter Aiding of a High Sensitivity GPS Receiver for Lunar Missions
Standalone GPS L1 C/A Receiver for Lunar Missions
Availability and ranging error analysis for a GPS L1/L5 receiver navigating to the Moon
GNSS/INS/Star Tracker Integration for Real-Time On-Board Autonomous Orbit and Attitude Determination in LEO, MEO, GEO and Beyond
GPS Based Navigation Performance Analysis within and beyond the Space Service Volume for Different Transmitters’ Antenna Patterns
GPS based navigation performance analysis within and beyond the Space Service Volume for different transmitters’ antenna patterns
High Accuracy GNSS Based Navigation in GEO
High accuracy GNSS based navigation in GEO
Orbital Filter Aiding of a High Sensitivity GPS Receiver for Lunar Missions
Orbital Filter Aiding of a High Sensitivity GPS Receiver for Lunar Missions
Standalone GPS L1 C/A Receiver for Lunar Missions
Use for
Blunt, Paul
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