Add to ORKGTerrain Referenced Navigation, referred to as TRN, is the one of the multi-sensor integrated navigation systems. And it has recently gained the interest as a backup system of conventional navigation methods due to widespread availabilities. In TRN, the terrain height measurement is correlated with terrain database to correct the position error. TRN is a powerful navigation method in the moon where does not have position fixing methods like GNSS. The terrain height information is used to achieve the navigation performance for precise lunar landing approach. The terrain height information of TRN is obtained using high performance ranging sensor LiDAR(Light Detection And Ranging). LiDAR is well developed showing its potential for TRN. Es...
Accurate autonomous navigation capabilities are essential for future lunar robotic landing missions ...
The Moon is currently a prime focus of space exploration. The spacefaring nations are studying, def...
The resurgence of interest in landing on the Moon has sparked the creation of a number of novel tech...
Capability for precise lunar landing is the goal for future NASA missions. A LIDAR-based terrain rel...
With NASA awarding numerous contracts to build commercial lunar payload spacecraft and human lunar l...
There has been increasing interest to go back to the moon in the recent past because of various scie...
For space exploration, reducing the size of landing ellipses, increases the access to areas of scien...
Interest in autonomous planetary precision landing missions has been increasing in the scientific an...
This paper deals with the problem of the navigation of a lunar lander based on the Terrain Relative ...
The exploration and potential future exploitation of solar system bodies requires technologies for p...
Terrain-relative navigation (TRN) refers to a class of algorithms that can be used to obtain the pre...
Water ice at the lunar poles could be the most valuable resource beyond planet Earth. However, that ...
Since the beginning of human space exploration, safe and soft landing on a celestial body (planet, m...
Precise and safe landings on celestial bodies as the Moon are needed for the further exploration and...
Missions to solar systems bodies must meet increasingly ambitious objectives requiring highly reliab...
Accurate autonomous navigation capabilities are essential for future lunar robotic landing missions ...
The Moon is currently a prime focus of space exploration. The spacefaring nations are studying, def...
The resurgence of interest in landing on the Moon has sparked the creation of a number of novel tech...
Capability for precise lunar landing is the goal for future NASA missions. A LIDAR-based terrain rel...
With NASA awarding numerous contracts to build commercial lunar payload spacecraft and human lunar l...
There has been increasing interest to go back to the moon in the recent past because of various scie...
For space exploration, reducing the size of landing ellipses, increases the access to areas of scien...
Interest in autonomous planetary precision landing missions has been increasing in the scientific an...
This paper deals with the problem of the navigation of a lunar lander based on the Terrain Relative ...
The exploration and potential future exploitation of solar system bodies requires technologies for p...
Terrain-relative navigation (TRN) refers to a class of algorithms that can be used to obtain the pre...
Water ice at the lunar poles could be the most valuable resource beyond planet Earth. However, that ...
Since the beginning of human space exploration, safe and soft landing on a celestial body (planet, m...
Precise and safe landings on celestial bodies as the Moon are needed for the further exploration and...
Missions to solar systems bodies must meet increasingly ambitious objectives requiring highly reliab...
Accurate autonomous navigation capabilities are essential for future lunar robotic landing missions ...
The Moon is currently a prime focus of space exploration. The spacefaring nations are studying, def...
The resurgence of interest in landing on the Moon has sparked the creation of a number of novel tech...