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Title: An initiative for construction of new-generation lunar global control network using multi-mission data
Authors: Di, K
Liu, B
Peng, M
Xin, X
Jia, M
Zuo, W
Ping, J
Wu, B 
Oberst, J
Issue Date: 2017
Source: International archives of the photogrammetry, remote sensing and spatial information sciences, 2017, v. 42, no. 3W1, p. 29-34
Abstract: A lunar global control network provides geodetic datum and control points for mapping of the lunar surface. The widely used Unified Lunar Control Network 2005 (ULCN2005) was built based on a combined photogrammetric solution of Clementine images acquired in 1994 and earlier photographic data. In this research, we propose an initiative for construction of a new-generation lunar global control network using multi-mission data newly acquired in the 21st century, which have much better resolution and precision than the old data acquired in the last century. The new control network will be based on a combined photogrammetric solution of an extended global image and laser altimetry network. The five lunar laser ranging retro-reflectors, which can be identified in LROC NAC images and have cm level 3D position accuracy, will be used as absolute control points in the least squares photogrammetric adjustment. Recently, a new radio total phase ranging method has been developed and used for high-precision positioning of Chang'e-3 landerMergeCell this shall offer a new absolute control point. Systematic methods and key techniques will be developed or enhanced, including rigorous and generic geometric modeling of orbital images, multi-scale feature extraction and matching among heterogeneous multi-mission remote sensing data, optimal selection of images at areas of multiple image coverages, and large-scale adjustment computation, etc. Based on the high-resolution new datasets and developed new techniques, the new generation of global control network is expected to have much higher accuracy and point density than the ULCN2005.
Keywords: Laser altimetry
Lunar control network
Multi-mission data
Orbital imaging
Photogrammetric solution
Publisher: Copernicus GmbH
Journal: International archives of the photogrammetry, remote sensing and spatial information sciences 
ISSN: 1682-1750
EISSN: 2194-9034
DOI: 10.5194/isprs-archives-XLII-3-W1-29-2017
Description: 2017 International Symposium on Planetary Remote Sensing and Mapping, PRSM 2017, 13 - 16 August 2017
Rights: © Authors 2017. CC BY 4.0 License.
Appears in Collections:Conference Paper

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