Topics
halo orbitArtificialsatellite
orbitPublisher
DopplerOrganisation
satellite navigationMusic genre
constellationBand
Linked Autonomous Interplanetary Satellite Orbit Navigation, or LiAISON, is a novel satellite navigation technique where relative radiometric measurements between two or more spacecraft in a constellation are processed to obtain the absolute state of all spacecraft. The method leverages the asymmetry of the gravity field that the constellation exists in. This paper takes a step forward in developing a high fidelity navigation simulation for the LiAISON concept in an Earth-Moon constellation. In particular, we aim to process two-way Doppler measurements between a satellite in GEO orbit and another in a halo orbit about the Earth-Moon L1 point
This paper presents a solution for autonomous orbit determination and time synchronization of spacec...
This paper presents a solution for autonomous orbit determination and time synchronization of spacec...
This paper presents a solution for autonomous orbit determination and time synchronization of spacec...
In this study, simulated Satellite-to-Satellite Tracking (SST) measurements for space-craft in lunar...
Liaison Navigation involves the use of scalar satellite-to-satellite tracking data to autonomously d...
A navigation technology known as LiAISON (Linked Autonomous Interplanetary Satellite Orbit Navigatio...
Autonomous orbit determination for departure stages of interplanetary trajectories is conducted by m...
This paper examines the benefits of navigating a crewed vehicle between the Earth and the Moon using...
Autonomous orbit determination for departure stages of interplanetary trajectories is conducted by m...
Crewed navigation in certain regions of the Earth-Moon system provides a unique challenge due to the...
This study investigates the application of the Linked Autonomous Interplanetary Satellite Orbit Navi...
This study presents an autonomous orbit determination system based on crosslink radiometric measurem...
This paper investigates the possibility of using only scalar Satellite-to-Satellite Track-ing (SST) ...
This paper investigates the possibility of using only scalar Satellite-to-Satellite Track-ing (SST) ...
A method has been developed to use a time series of relative position measurements to estimate the o...
This paper presents a solution for autonomous orbit determination and time synchronization of spacec...
This paper presents a solution for autonomous orbit determination and time synchronization of spacec...
This paper presents a solution for autonomous orbit determination and time synchronization of spacec...
In this study, simulated Satellite-to-Satellite Tracking (SST) measurements for space-craft in lunar...
Liaison Navigation involves the use of scalar satellite-to-satellite tracking data to autonomously d...
A navigation technology known as LiAISON (Linked Autonomous Interplanetary Satellite Orbit Navigatio...
Autonomous orbit determination for departure stages of interplanetary trajectories is conducted by m...
This paper examines the benefits of navigating a crewed vehicle between the Earth and the Moon using...
Autonomous orbit determination for departure stages of interplanetary trajectories is conducted by m...
Crewed navigation in certain regions of the Earth-Moon system provides a unique challenge due to the...
This study investigates the application of the Linked Autonomous Interplanetary Satellite Orbit Navi...
This study presents an autonomous orbit determination system based on crosslink radiometric measurem...
This paper investigates the possibility of using only scalar Satellite-to-Satellite Track-ing (SST) ...
This paper investigates the possibility of using only scalar Satellite-to-Satellite Track-ing (SST) ...
A method has been developed to use a time series of relative position measurements to estimate the o...
This paper presents a solution for autonomous orbit determination and time synchronization of spacec...
This paper presents a solution for autonomous orbit determination and time synchronization of spacec...
This paper presents a solution for autonomous orbit determination and time synchronization of spacec...
Add to ORKG