Add to ORKGInitial work in creating a complete Lunar DEM and orthoimage from Level 3 Chang’E1 imagery is presented. The methodology for using commercial photogrammetric software, LPS, and integrating data from the Clementine mission of 1994 is presented. The DEM sections created are compared to those obtained from the Chang’E1 laser altimeter.Department of Land Surveying and Geo-InformaticsAuthor name used in this publication: Y. Q. ChenAuthor name used in this publication: X. L. DingAuthor name used in this publication: W. ChenAuthor name used in this publication: H. B. IzAuthor name used in this publication: B. A. Kin
Mons Rümker is the primary candidate region for the lunar landing mission of Chang’E-5. W...
A technique is described that has been used to semi-automatically generate Digital Terrain Models (D...
ABSTRACT: Digital Elevation Models (DEMs) are required for several tasks like generation of orthoima...
Author name used in this publication: Y. Q. ChenAuthor name used in this publication: X. L. DingAuth...
2nd International Postgraduate Conference on Infrastructure and Environment, IPCIE 2010, Hong Kong, ...
This atlas is based on the lunar global Digital Elevation Models (DEM) of Chang'E-1 (CE-1), and pres...
Digital Elevation Models (DEMs) of planetary surfaces can be produced from spacecraft stereo imagery...
To improve the lunar DEM accuracy derived from CE-1 altimeter data, CE-1 laser altimeter data are ca...
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...
International audienceMons Rümker is the primary candidate region for the lunar landing mission of C...
The present work discusses the technique and methodology of analysing and Terrain Mapping Camera (TM...
We derived a local control point network and a DTM (Digital Terrain Model) from Clementine UVVIS mul...
We present an improved lunar digital elevation model (DEM) covering latitudes within ±60°, at a hori...
Mons Rümker is the primary candidate region for the lunar landing mission of Chang’E-5. W...
Mons Rümker is the primary candidate region for the lunar landing mission of Chang’E-5. W...
A technique is described that has been used to semi-automatically generate Digital Terrain Models (D...
ABSTRACT: Digital Elevation Models (DEMs) are required for several tasks like generation of orthoima...
Author name used in this publication: Y. Q. ChenAuthor name used in this publication: X. L. DingAuth...
2nd International Postgraduate Conference on Infrastructure and Environment, IPCIE 2010, Hong Kong, ...
This atlas is based on the lunar global Digital Elevation Models (DEM) of Chang'E-1 (CE-1), and pres...
Digital Elevation Models (DEMs) of planetary surfaces can be produced from spacecraft stereo imagery...
To improve the lunar DEM accuracy derived from CE-1 altimeter data, CE-1 laser altimeter data are ca...
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...
International audienceMons Rümker is the primary candidate region for the lunar landing mission of C...
The present work discusses the technique and methodology of analysing and Terrain Mapping Camera (TM...
We derived a local control point network and a DTM (Digital Terrain Model) from Clementine UVVIS mul...
We present an improved lunar digital elevation model (DEM) covering latitudes within ±60°, at a hori...
Mons Rümker is the primary candidate region for the lunar landing mission of Chang’E-5. W...
Mons Rümker is the primary candidate region for the lunar landing mission of Chang’E-5. W...
A technique is described that has been used to semi-automatically generate Digital Terrain Models (D...
ABSTRACT: Digital Elevation Models (DEMs) are required for several tasks like generation of orthoima...