[1] Liu Jiangtao.3D Laser Scanning Technology in the Application of Archaeological Exploration[D].Beijing:Capital Normal University,2007(刘江涛. 三维激光扫描技术在考古勘探中的应用[D]. 北京:首都师范大学,2007)
[2] Wei Wei,Qian Wei.Review on the Application of 3D Laser Scanning in Conservation and Archaeology[J]. Sciences of Conservation and Archaeology, 2013,25(1):96-107(魏薇, 潜伟. 三维激光扫描在文物考古中应用述评[J]. 考古技术与应用,2013,25(1):96-107)
[3] Feng Enxue.The Field of Archaeology[M]. Changchun:Jilin University Press,2008(冯恩学. 田野考古学[M]. 长春:吉林大学出版社,2008)
[4] Scharstein D, Szeliski R. A Taxonomy and Evaluation of Dense Two-frame Stereo Correspondence Algorithms[J]. International Journal of Computer Vision,2001,47(1):7-42
[5] Hirschmüller H, Scharstein D. Evaluation of Stereo Matching Costs on Images with Radiometric Differences[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2009,31(9) :1 528-1 599
[6] Hirschmüller H. Stereo Vision in Structured Environments by Consistent Semi-global Matching[C]. IEEE Computer Conference on Computer Vision and Pattern Recognition (CVPR'06), New York, USA,2006
[7] Gao Bo. Research on 3D Scene Reconstruction from Binocular Stereo Pairs─Semi-global Stereo Matching Algorithm Combined with Structure Constraint[D]. Shanghai :Shanghai Jiaotong University,2007(高波. 从双目立体图像中恢复三维信息的研究——加入结构约束的半全局匹配算法的研究与实现[D].上海:上海交通大学,2007)
[8] Hirschmüller H, Bucher T. Evaluation of Digital Surface Models by Semi-global Matching[J]. DGPF, 2010,19:571-580
[9] Hirschmüller H. Accurate and Efficient Stereo Processing by Semi-global Matching and Mutual Information[C]. IEEE Conference on Computer Vision and Pattern Recognition (CVPR'05), San Diego, CA, USA,2005
[10] Hirschmüller H. Stereo Processing by Semi-global Matching and Mutual Information[J]. IEEE Trans. Pattern Analysis and Machine Intelligence, 2008,30(2):328-341
[11] Lv Peiyu.Research on Segment-based Dense Matching Algorithm and Its Realization in UAV Images[D]. Xi'an: Xi'an University of Science and Technology,2013(吕佩育. 基于影像分割的无人机影像密集匹配算法研究与应用[D]. 西安:西安科技大学,2013)
[12] Hu Xiaoyan, Mordohai P. A Quantitative Evaluation of Confidence Measures for Stereo Vision[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2012,34(11): 2 121-2 133
[13] Mei X, Sun X, Zhou M, et al. On Building an Accurate Stereo Matching System on Graphics Hardware[C]. IEEE International Conference on Computer Vision Workshops(ICCV 2011),Spain,2011
[14] Yang Q,Wang L, Yang R,et al. Stereo Matching with Color-weighted Correlation, Hierarchical Belief Propagation and Occlusion Handling[J]. IEEE TPAMI, 2009,31(3):492-504
[15] Pan Fei. Research on Control Point Constraints-Based Dense Matching Algorithm and Its Realization in UAV Images[D]. Wuhan :Wuhan University,2012(潘飞. 基于控制点约束的无人机影像密集匹配算法研究与应用[D]. 武汉:武汉大学,2012)
[16] Zhang Chunsen, Guo Bingxuan, Lv Peiyu. Application of Digital Close-range Photogrammetry During Archaeological Excavation of the Acrobatic Figurines Pit at the Qinshihuang Mausoleum Site[J]. Sciences of Conservation and Archaeology, 2014,26(2):90-95(张春森, 郭丙轩, 吕佩育. 数字近景摄影测量在秦始皇陵百戏坑考古中的应用研究[J]. 文物保护与考古科学, 2014,26(2):90-95)
[17] Haala N, Hastedt H, Wolf K, et al. Digital Photogrammetric Camera Evaluation-generation of Digital Elevation Models[J]. Photogrammetrie Fernerkundung Geoinformation, 2010,2:99-115
[18] Gao Bo, Ma Lizhuang. Semi-global Stereo Matching Combined with Structure Constraint[J]. Computer Applications and Software, 2009,26(2):90-95(高波,马利庄. 加入结构约束的半全局立体匹配方法[J]. 计算机应用与软件,2009,26(2):90-95)