The use of small X-ray detectors for deep space relative navigation

Keyphrases

• Deep Space 100%
• X-ray Detectors 100%
• Space Relative Navigation 100%
• Navigation Solution 75%
• Pulsars 50%
• Autonomous Operation 50%
• Detector System 50%
• System Performance 25%
• High Performance 25%
• Developing Technology 25%
• Operating Cost 25%
• Scientific Observation 25%
• Latency 25%
• Autonomous Vehicles 25%
• Hardware Complexity 25%
• X-ray Navigation 25%
• Space Vehicles 25%
• Autonomous Navigation 25%
• Operational Scenario 25%
• Radiotelemetry 25%
• Data Communication 25%
• Navigation System 25%
• X-ray Sources 25%
• Network-like 25%
• Space Mission 25%
• X-ray Irradiation 25%
• Relative Navigation 25%
• New Alternatives 25%
• Global Positioning System 25%
• Hardware Algorithm 25%
• Pulsation 25%
• High Energy Photons 25%
• Vehicle Fleet 25%
• Large-sized 25%
• Vehicle Operation 25%
• Pulse Signal 25%
• Laboratory Modeling 25%
• Operational Aspects 25%
• Global Navigation Satellite System 25%
• Time Attitudes 25%
• Cooperative Observation 25%
• Cislunar 25%
• Range Rate Measurement 25%
• Small Vehicles 25%
• Navigability 25%
• Semi-autonomous Navigation 25%
• Deep Space Network 25%
• Small-sized 25%

Engineering

• Detector System 100%
• Vehicle Operation 50%
• NASA 50%
• Simulation Tool 50%
• Navigation System 50%
• Key Parameter 50%
• Rate Range 50%
• Ray Source 50%
• Operational Cost 50%
• Space Vehicle 50%
• High Photon Energy 50%
• Operational Scenario 50%
• Systems Performance 50%
• Global Positioning System 50%

Physics

• X Ray Detector 100%
• Deep Space 100%
• Spacecraft 75%
• Pulsar 75%
• Deep Space Network 50%
• X Ray 25%
• Space Vehicle 25%
• X Ray Source 25%
• Global Positioning System 25%
• Radio Telemetry 25%
• Space Mission 25%
• Detectors 25%