Add to ORKGGalileo SSI multi-look-angle 1 km/pixel images obtained during the Earth-Moon flyby in 1992 were analyzed to derive a DTM (Digital Terrain Model) of the lunar nearside northern hemishphere (approx. longitude range: 0-120 degrees East; latitude range: 0-80 degrees North). The nominal spacecraft trajectory and camera pointing data were corrected by using control points an photogrammetric adjustment techniques. Automatic digital image matching was used to measure disparity data (stereo effects) in image pairs. The resulting terrain model has 2000 m grid spacing and 500 m height resolution. Prominent selenographic features visible in the terrain model include the Humboldtianum basin, Mare Crisium, parts of Mare Serenitatis, and numerous 100 ...
The Lunar Reconnaissance Orbiter Camera (LROC) includes two identical Narrow Angle Cameras (NAC) tha...
A technique is described which has been used to generate a Digital Terrain Model of the region west ...
A Digital Elevation Model of the lunar south pole was produced using Goldstone Solar System RADAR (G...
49 Galileo SSI green filter multi-look angle images obtained from distances of between 115 000 km an...
We analyzed images, obtained by the Galileo and Clementine spacecraft in 1992 and 1994 using state-o...
We analyzed images obtained during Galileo flyby in 1992 and by the Clementine orbiter in 1994 to de...
A technique is described that has been used to semi-automatically generate Digital Terrain Models (D...
Clementine stereoimagery has been used to produce digital elevation models of the Moon, at a scale o...
Clementine stereoimagery has been used to produce digital elevation models of the Moon, at a scale o...
We derived a local control point network and a DTM (Digital Terrain Model) from Clementine UVVIS mul...
We derived a Digital Terrain Model (DTM) using stereo images obtained by the Clementine UVVIS camera...
A local control point network and a DTM (Digital Terrain Model) are derived form Clementine UVVIS mu...
A local control point network and a DTM (Digital Terrain Model) are derived form Clementine UVVIS mu...
We present an improved lunar digital elevation model (DEM) covering latitudes within ±60°, at a hori...
We present an improved lunar digital elevation model (DEM) covering latitudes within +/-60 deg, at a...
The Lunar Reconnaissance Orbiter Camera (LROC) includes two identical Narrow Angle Cameras (NAC) tha...
A technique is described which has been used to generate a Digital Terrain Model of the region west ...
A Digital Elevation Model of the lunar south pole was produced using Goldstone Solar System RADAR (G...
49 Galileo SSI green filter multi-look angle images obtained from distances of between 115 000 km an...
We analyzed images, obtained by the Galileo and Clementine spacecraft in 1992 and 1994 using state-o...
We analyzed images obtained during Galileo flyby in 1992 and by the Clementine orbiter in 1994 to de...
A technique is described that has been used to semi-automatically generate Digital Terrain Models (D...
Clementine stereoimagery has been used to produce digital elevation models of the Moon, at a scale o...
Clementine stereoimagery has been used to produce digital elevation models of the Moon, at a scale o...
We derived a local control point network and a DTM (Digital Terrain Model) from Clementine UVVIS mul...
We derived a Digital Terrain Model (DTM) using stereo images obtained by the Clementine UVVIS camera...
A local control point network and a DTM (Digital Terrain Model) are derived form Clementine UVVIS mu...
A local control point network and a DTM (Digital Terrain Model) are derived form Clementine UVVIS mu...
We present an improved lunar digital elevation model (DEM) covering latitudes within ±60°, at a hori...
We present an improved lunar digital elevation model (DEM) covering latitudes within +/-60 deg, at a...
The Lunar Reconnaissance Orbiter Camera (LROC) includes two identical Narrow Angle Cameras (NAC) tha...
A technique is described which has been used to generate a Digital Terrain Model of the region west ...
A Digital Elevation Model of the lunar south pole was produced using Goldstone Solar System RADAR (G...