International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XXXIX-B4, 2012 
XXII ISPRS Congress, 25 August — 01 September 2012, Melbourne, Australia 
Archinal ,B. A., M. R. Rosiek, and B. L.,2005. Unified lunar 
control control network 2005 and topographic model. Lunar 
and Planetary Science XXXVI. 
Besl, p.J., and McKay, N.D., 1992. A method for registration of 
3D shapes. [EEE Transactions on Pattern Analysis and 
Machine Intelligence, 14 (2), pp.239-256. 
Dijkman, S.T., and van den Heuvel, F.A., 2002. Semi automatic 
registration of laser scanner data. International Archives of 
Photogrammetry, Remote Sensing and Spatial Information 
Sciences, 34 (5), pp.12- 17. 
Gruen, A., and G. Akca, D., 2005. Least squares 3D surface and 
curve matching. ISPRS Journal of Photogrammetry & Remote 
Sensing, pp.151-174. 
Íz H. B., Y. Q. Chen, X. L. Ding, B. A. King, C. K. Shum, C. 
Wu, and M. Berber, 2011. Assessing Consistency of Chang’E-1 
and SELENE Reference Frames using Nearly-colocated Laser 
Altimetry Footprint Positions, Chinese Journal of Science, 
special issue on recent lunar missions, published online. 
Kato, M., S. Sasakia, K. Tanakaa, Y. lijimaa, and Y. 
Takizawaa, 2008. The Japanese lunar mission SELENE: 
Science goals and present status. Advances in Space Research, 
vol. 42, no. 2, pp. 294-300. 
Li, C. L., X. Ren, J. Liu, X. Zou, L. Mou, J. Wang, R. Shu, Y. 
Zou, H. Zhang, C, Lv, J. Liu, W. Zuo, Y. Su, W. Wen, W. Bian, 
M. Wang, C. Xu, D. Kong, X. Wang, F. Wang, L. Geng, Z. 
Zhang, L. Zheng, X. Zhu, and J. Li, 2010. Laser Altimetry Data 
of Chang'E-1 and the global Lunar DEM Model. Science China 
Earth Science, vol. 40, no. 3, pp. 281-293. 
Mellberg,W. F., 1997. Moon Missions - Mankind's first voyages 
to another world. Plymouth, MI: Plymouth Press. 
NASA (National Aeronautics and Space Administration), 2009. 
Lunar Reconnaissance Orbiter.  http://lunar.gsfc.nasa.gov/ 
(2009). 
Ouyang, Z. Y., J. Jiang, C. Li, H. Sun, Y. Zou, J. Liu, J. Liu, B. 
Zhao, X. Ren, J. Yang, W. Zhang, J. Wang, L. Mou, J. Chang, 
L. Zhang, H. Wang, Y. Li, X. Zhang, Y. Zheng, S. Wang, W. 
Bian, 2008. Preliminary Scientific Results of Chang’E-1 Lunar 
Orbiter: Based on Payloads Detection Data in the First Phase. 
Chinese Journal of Space Science, vol. 28, no. 5, pp. 9-17. 
Park, S.Y.and Subbarao, M., 2003. A fast point-to-tangent plane 
technique for multi-view registration. [EEE International 
Conference on 3D Digital Imageing and Modeling, Banff, pp. 
276-283. 
Ping, J. S., Q. Huang, J. G. Yan, J. F. Cao, G. S. Tang, and R. 
Shu, 2009. Lunar topographic model CLTM-s01 from 
Chang’E-1 laser altimeter. Science in China Series G: Physics, 
Mechanics & Astronomy, vol. 52, no. 7, pp. 1105-1114. 
Rosiek, M., R. Kirk, and E. Howington-Kraus, 1999. Lunar 
Topographic Maps Derived from Clementine Imagery. Lunar 
Planet. Sci. XXX, Abstract 41853, LPI, Houston, TX. 
Smith, D. E., M. T. Zuber, G. A. Neumann, and F. G. Lemoine, 
1997. Topography of the Moon from the Clementine LiDAR. 
JGR - Planets, vol. 102-El, pp. 1591-1611. 
Williams, J.A., Bennamoun, M., Latham, S., 1999. Multiple 
view 3D registration; a review and a new technique, /EEE 
SMC’ 99 Conference Proceedings, Tokyo, Japan. 
Wu, B., Guo, J. Zhang, Y.S., King, B., Li, Z.L., and Chen, Y Q., 
2011. Integration of Chang'E-1 Imagery and Laser Altimeter 
Data for Precision Lunar Topographic Modelling. /EEE 
Transactions on Geoscience and Remote Sensing, Vol. 49, 
No.12, pp.4889-4903. 
Zheng, Y., Z. Ouyang, C. Li, J. Liu, and Y. Zou, 2008. China’s 
Lunar Exploration Program: Present and future. Planetary and 
Space Science, vol. 56, pp. 881-886. 
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