[1] Scharstein D, Szeliski R. A taxonomy and evaluation of dense two frame stereo correspondence algorithms [J]. International Journal of Computer Vision(S0920-5691), 2002, 47(1): 7-42.

[2] Krotkov Eric, Hebert Martial. Mapping and Positioning for a Prototype Lunar Rover [C]// IEEE International Conference on Robotics and Automation, Nagoya, Japan, May 21-27, 1995, 3: 2913-2917.

[3] Cai J. Integration of optical flow and dynamic programming for stereo matching [J]. Image Processing(S1751-9659), 2012, 6(3): 205-212.

[4] Bobick A F, Intille S S. Large occlusion stereo [J]. International Journal of Computer Vision(S0920-5691), 1999, 33(3): 181-200.

[5] Kowalczuk J, Psota E, Pérez L. Real-time stereo matching on CUDA using an iterative refinement method for adaptive support-weight correspondences [J]. Circuits and Systems for Video Technology(S1051-8215), 2013, 23(1): 94-104.

[6] Leung C, Appleton B, Sun C. Fast stereo matching by iterated dynamic programming and quadtree subregioning [C]// Proceedings of the Conference on British Machine Vision, Kingston, United Kingdom, Sept 7-9, 2004, 1: 97-106.

[7] Boykov Y, Veksler O, Zabih R. Fast Approximate Energy Minimization via Graph Cuts [J]. Pattern Analysis and Machine Intelligence(S0162-8828), 2001, 23(11): 1222-1239.

[8] SUN Zheng, YU Daoyin. Application of dynamic programming in dynamic image sequence analysis [J]. Opto-Electronic Engineering, 2006, 33(3): 32-35.

[9] LIU Hewei, WANG Zengfu. Stereo Matching Algorithm Based on Dynamic Programming along Region Boundary [J]. Pattern Recognition and Artificial Intelligence, 2010, 23(1): 38-44.

[10] ZHANG Qian, XU Xianfeng, YUAN Hongguang, et al. Phase-shift Extraction and Wave Reconstruction in Four-step Phase-shifting Interferometry [J]. Opto-Electronic Engineering, 2011, 38(8): 139-144.

[11] LIU Jingnan, WEI Erhu, HUANG Jinsong, et al. Applications of Selenodesy to Lunar Detection [J]. Geomatics and Information Science of Wuhan University, 2005, 30(2): 95-100.