Add to ORKGThe performance of optical autonomous navigation is investigated for low lunar orbits and for high elliptical lunar orbits. Various options for employing the camera measurements are presented and compared. Strategies for improving navigation performance are developed and applied to the Orion vehicle lunar missio
This document explores the possibility of a novel approach to trajectory determination based on opti...
Present and future robotic landing missions to the moon with high landing accuracy requirements need...
Precise and safe landings on celestial bodies as the Moon are needed for the further exploration and...
NASA aims to achieve unprecedented navigational reliability for the first manned lunar mission of th...
Four measurement options for Orion autonomous optical lunar navigation are analyzed using linear cov...
The Orion Crew Exploration Vehicle (CEV) will replace the Space Shuttle and serve as the next-genera...
The Lunar Meteoroid Impact Observer (LUMIO) is a 12U CubeSat in a halo orbit at Earth–Moon L2to obse...
The analysis of optical navigation in an Earth–Moon libration point orbit is examined. Missions to l...
A method has been developed for performing autonomous Lunar orbit determination based on measurement...
Future soft landing missions to celestial bodies will demand a high accuracy in absolute navigation....
Nowadays, several space agencies are emphasizing the interest for the human return to the Moon. This...
Autonomous navigation capabilities for spacecraft are useful for decreasing operational costs, incre...
textRecent years have seen ambitious robotic exploration missions to other planets and a renewed int...
This work explores the problem of providing relative velocity navigation for an autonomous precision...
This paper details the design of the cislunar optical navigation system being proposed for the Orion...
This document explores the possibility of a novel approach to trajectory determination based on opti...
Present and future robotic landing missions to the moon with high landing accuracy requirements need...
Precise and safe landings on celestial bodies as the Moon are needed for the further exploration and...
NASA aims to achieve unprecedented navigational reliability for the first manned lunar mission of th...
Four measurement options for Orion autonomous optical lunar navigation are analyzed using linear cov...
The Orion Crew Exploration Vehicle (CEV) will replace the Space Shuttle and serve as the next-genera...
The Lunar Meteoroid Impact Observer (LUMIO) is a 12U CubeSat in a halo orbit at Earth–Moon L2to obse...
The analysis of optical navigation in an Earth–Moon libration point orbit is examined. Missions to l...
A method has been developed for performing autonomous Lunar orbit determination based on measurement...
Future soft landing missions to celestial bodies will demand a high accuracy in absolute navigation....
Nowadays, several space agencies are emphasizing the interest for the human return to the Moon. This...
Autonomous navigation capabilities for spacecraft are useful for decreasing operational costs, incre...
textRecent years have seen ambitious robotic exploration missions to other planets and a renewed int...
This work explores the problem of providing relative velocity navigation for an autonomous precision...
This paper details the design of the cislunar optical navigation system being proposed for the Orion...
This document explores the possibility of a novel approach to trajectory determination based on opti...
Present and future robotic landing missions to the moon with high landing accuracy requirements need...
Precise and safe landings on celestial bodies as the Moon are needed for the further exploration and...